Guava UG.book guava easyCyte™ HT System - User's Guide

Guava UG.book

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USER MANUAL

Millipore Guava easyCyte HT Cytometer For SALE

guava easyCyte™ HT System - User's Guide - Acme Revival

Jul 13, 2021 — Please refer to the appropriate package insert for specific instructions and ... guava easyCyte HT System and Laptop Communication Troubleshooting .

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guava-easycyte-ht-system-user-s-guide

guava easyCyteTM HT System
User's Guide
For systems running guavaSoft software, version 2.7

For Research Use Only; not for use in diagnostic procedures

0110-5820 Rev G

© 2013 EMD Millipore Corporation. All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in retrieval systems, or translated into any form, or by any means: electronic, mechanical, magnetic, optical, or otherwise, without the prior written permission of EMD Millipore Corporation, 25801 Industrial Blvd., Hayward, CA 94545, United States of America.
EMD Millipore reserves the right to change its products and services at any time to incorporate the latest technological developments. This guide is subject to change without notice. EMD Millipore has thoroughly tested the operation of guavaSoft Software on Windows XP and Windows 7, but does not warrant that the software functions correctly on any other operating system. EMD Millipore has not validated the analysis of guava easyCyte HT System data using thirdparty programs and cannot warrant that the results using these programs will be correct. EMD Millipore does not provide support for any third-party programs.
The guava easyCyte HT System is for research use only; not for use in diagnostic procedures. The results of the assays are dependent upon the proper use of the reagents and instrument. Please refer to the appropriate package insert for specific instructions and limitations.
The M logo is a trademark of Merck KGaA, Darmstadt, Germany. Millipore, Muse, FlowCellect, and guava are registered trademarks or trademarks of EMD Millipore Corporation. Microsoft, Windows, Internet Explorer, and Excel are registered trademarks of Microsoft Corporation. Dell is a trademark of the Dell Computer Corporation. Alexa Fluor, Texas Red, SYTO, SYTOX, TO-PRO, YO-PRO, YOYO, SNARF, FuraRed, BODIPY, and Oregon Green are trademarks of Molecular Probes, Inc. ModFit is a trademark of Verity Software House. Cy is a trademark of Amersham Biosciences Corp. CF is a trademark of Biotium, Inc. All other trademarks are property of their respective companies.
The guava easyCyte HT System is the subject of issued and pending US patents and foreign equivalents, including the following US patents: 5,798,222 Apparatus for monitoring substances in organisms 6,403,378 Cell Viability assay reagents 6,710,871 and 6,816,257 Method and apparatus for detecting microparticles in fluid samples 7,320,775 Exchangeable flow cell assembly with a suspended capillary 7,410,809 Particle or cell analyzer and method 8,184,271 and 7,847,923 Differentiation of flow cytometry pulses and applications The InCyte analysis and guava RapidQuant Human and Mouse IgG Assays are the subjects of pending patent applications.

0110-5820 Rev G November 15, 2013

Table of Contents

Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi
About This Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xii
Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii General Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii Biological Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii Electrical Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii Laser Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiv Precaution Labels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiv
Limitations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiv
Chapter 1: Introduction
guava easyCyte HT System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 System Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 Hardware Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 guava easyCyte HT System and Laptop Communication Troubleshooting . . . . . . . . . . . . . . . . . . . . 1-4
guava easyCyte HT Instrument . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
guavaSoft Software Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8 Main Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8 Registering a guava Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10 Templates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11 Acquisition Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-13 Analysis Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-15 Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-17 Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-22
Worklists . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-23 WorkEdit Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-23 WorkEdit Fields . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-24 Worklist Editor Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-27 Creating a Worklist . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-29 Creating a Worklist Template . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-33
Chapter 2: Getting Started
System Startup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
Running the easyCheck Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2 easyCheck Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4 Viewing and Exporting easyCheck Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5 Viewing Trend Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7 easyCheck Procedure Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
System Shutdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-10 Quitting guavaSoft Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-10

Table of Contents

iii

Chapter 3: Cleaning and Maintenance
Running Quick Clean . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Backflushing the Fluid System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Running Clean & Rinse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
Running Guava Clean . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
Shutting Down the Capillary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6
Filling the Cleaning Solution Vial . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6
Emptying the Waste Vial . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7
Cleaning the Flow Cell . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8 About the Flow Cell . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8 Using the Syringe Tool to Clean the Flow Cell Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8
Replacing the Flow Cell . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-11
Replacing the Fuses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13
Returning the System for Service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-14
Chapter 4: guava ViaCount Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
Running the guava ViaCount Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
guava ViaCount Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-9 EasyFit Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10 Manual Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-12 guava ViaCount Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14 Exporting ViaCount Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15 Exporting ViaCount Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15 ViaCount Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16
guava ViaCount Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-17
Guava Excel Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-21
Chapter 5: guava ExpressPlus Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
Running the guava ExpressPlus Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2
guava ExpressPlus Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-9 Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11 Markers for Statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-13 guava ExpressPlus Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-16 Exporting guava ExpressPlus Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-17 Exporting guava ExpressPlus Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-18 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-18 guava ExpressPlus Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-19
guava ExpressPlus Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-21

guava easyCyte HT System User's Guide

Chapter 6: guava ExpressPro Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1
Running the guava ExpressPro Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2
guava ExpressPro Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-11 Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-13 Defining Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-18 Changing the Plot Appearance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-19 guava ExpressPro Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-20 Exporting guava ExpressPro Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-23 Exporting guava ExpressPro Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-23 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-23 guava ExpressPro Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-25
guava ExpressPro Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-27

Chapter 7: guava InCyte Assay
7.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 Components of InCyte Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2
7.2 InCyte Application Window . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-4 Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-5 Tool Bar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-6 Plots . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-7 Pie Legend . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-10 Exiting the Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-10
7.3 guava InCyte Sample Acquisition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-11
7.4 guava InCyte Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-19 The Analysis Panes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-19 Analyzing Files Acquired Using InCyte . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-20 Analyzing Files Acquired Using Other Guava Software Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-23
7.5 Regions, Gates, and Statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-25 Regions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-25 Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-28 Stat Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-32 Exporting guava InCyte Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-39
7.6 Compensation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-39 Performing Compensation During Acquisition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-39 Performing Post-Acquisition Compensation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-41 Performing Semi-automated Compensation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-42
7.7 HeatMap . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-45 Creating a HeatMap . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-46 Thresholds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-49 Metrics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-49
7.8 IC-50/EC-50 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-50 Creating an EC-50 or IC-50 Curve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-51
7.9 Special Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-52 Creating a Group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-52 Data Pooling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-53 Overlaying Histograms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-54

Table of Contents

7.10 Exporting guava InCyte Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-55
7.11 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-55
7.12 Instrument Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-56 Exporting Instrument Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-57
7.13 guava InCyte Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-57
Chapter 8: guava Nexin Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1
Running the guava Nexin Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-2
guava Nexin Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-8 Optional Dot Plot Gate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-10 Quadrant Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-10 guava Nexin Quadrant Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-12 Exporting guava Nexin Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-12 Exporting guava Nexin Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-13 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-13 guava Nexin Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-14
guava Nexin Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-15
Chapter 9: guava Caspase Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
Running the guava Caspase Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-2
guava Caspase Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-11 Dot Plot Gate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-13 Quadrant Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-15 Caspase Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-16 Exporting Caspase Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-18 Exporting Caspase Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-18 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-19 Caspase Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-19
guava Caspase Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-21
Chapter 10: guava TUNEL Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-1
Running the guava TUNEL Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-2
guava TUNEL Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-8 Optional Dot Plot Gate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-9 Histogram Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-10 TUNEL Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-12 Exporting TUNEL Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-12 Exporting TUNEL Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-12 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-13 TUNEL Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-13
guava TUNEL Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-14

guava easyCyte HT System User's Guide

Chapter 11: guava MitoPotential Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1
Running the guava MitoPotential Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-2
guava MitoPotential Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-7 Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-9 Markers for Statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-10 guava MitoPotential Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-12 Exporting MitoPotential Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-13 Exporting MitoPotential Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-13 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-13 MitoPotential Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-14
guava MitoPotential Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-15
Chapter 12: guava Cell Cycle Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-1
Running the guava Cell Cycle Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-2
guava Cell Cycle Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-8 Optional Dot Plot Gate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-9 Histogram Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-10 Cell Cycle Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-11 Exporting Cell Cycle Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-12 Exporting Cell Cycle Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-12 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-12 Cell Cycle Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-13
guava Cell Cycle Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-14
Chapter 13: guava CellPaint Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-1
Running the guava CellPaint Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-2
guava CellPaint Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-9 Optional Dot Plot Gate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-10 Quadrant Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-11 CellPaint Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-13 Exporting CellPaint Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-13 Exporting CellPaint Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-14 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-14 CellPaint Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-15
guava CellPaint Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-16
Chapter 14: guava CellToxicity Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-1
Running the guava CellToxicity Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-2
guava CellToxicity Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-8 Dot Plot Gate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-10 Quadrant Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-11

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CellToxicity Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-12 Exporting CellToxicity Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-13 Exporting CellToxicity Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-13 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-13 CellToxicity Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-14
guava CellToxicity Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-15
Chapter 15: guava CellGrowth Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-1
Running the guava CellGrowth Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-2
guava CellGrowth Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-9 Dot Plot Gate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-10 Quadrant Markers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-11 Histogram Marker . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-12 CellGrowth Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-13 Exporting CellGrowth Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-15 Exporting CellGrowth Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-15 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-15 CellGrowth Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-16
guava CellGrowth Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-17
Chapter 16: guava RapidQuant Assay
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-1
Running the guava RapidQuant Assay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-2
guava RapidQuant Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-10 Setting a Gate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-12 Plot Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-14 guava RapidQuant Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-15 Exporting guava RapidQuant Results to an FCS 2.0 File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-18 Exporting guava RapidQuant Results to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-18 Exporting guava RapidQuant Standard Curve to a Spreadsheet File . . . . . . . . . . . . . . . . . . . . . . . 16-18 Printing Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-18 guava RapidQuant Software Module Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-20
guava RapidQuant Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-22
Chapter 17: Troubleshooting
General System Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-1
easyCheck Procedure Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-3
guava ViaCount Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-5
guava ExpressPlus Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-8
guava ExpressPro Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-11
guava InCyte Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-14
guava Nexin Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-17
guava Caspase Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-20

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guava easyCyte HT System User's Guide

guava TUNEL Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-22 guava MitoPotential Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-24 guava Cell Cycle Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-27 guava CellPaint Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-28 guava CellToxicity Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-31 guava CellGrowth Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-33 guava RapidQuant Assay Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-35
Appendix A: EasyFit Case Study Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1 Use EasyFit Under These Circumstances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2 Use Manual ViaCount Analysis Under These Circumstances . . . . . . . . . . . . . . . . . . . . . . . . . . . A-5
Appendix B: Administrator Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1 Setting Up Access Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1 Administration Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-9
Appendix C: Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1
Appendix D: Order Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Table of Contents

guava easyCyte HT System User's Guide

Preface
The guava easyCyteTM HT System is the first automated, easy-to-use, desktop single-cell analysis system that can perform a wide range of multi-color cellular and bead assays. The system accommodates both a 96-well plate and microcentrifuge tubes. The current applications include:
· guava ViaCount® Software Module for cell counting and viability · guava InCyte for assays needing up to six colors and two scatter parameters, or if
you wish to analyze any guava FCS 3.0 data files · guava® ExpressPlus Software Module for any one-, two-, or three-color assay · guava® ExpressPro Software Module for assays needing up to six colors and two
scatter parameters · guava Nexin®, guava® Caspase, guava® TUNEL, and guava® MitoPotential
Software Modules for apoptosis analysis · guava® Cell Cycle Software Module for DNA analysis · guava® CellPaint Software Module for tracking target cells in mixed populations, or
for mAb screening in mixed cultures · guava® CellToxicity Software Module for cell-mediated cytotoxicity determinations · guava® CellGrowth Software Module for cell proliferation studies · guava RapidQuantTM Software Module for quantification of human and mouse IgG
antibodies The guava ViaCount Cell Counting and Viability Software Module, automatically analyzes the fluorescence of cells stained with the ViaCount Reagent and quantifies the number of viable and non-viable cells in the sample. The guava ExpressPlus Software Module was designed to allow you the flexibility to perform any one-, two-, or three-color assay. The guava ExpressPro Software Module is designed for assays of up to six colors using both the red and blue lasers. It allows you to save a time parameter, as well as perform area, and/or width measurements. The guava InCyte application offers the same features as ExpressPro. It has a unique interface with drag and drop capabilities for acquisition and analysis. Guava InCyte allows you to open and analyze files acquired with any other guava assay. The guava Nexin, guava Caspase, guava TUNEL, and guava MitoPotential Apoptosis Software Modules allow you to identify apoptotic cells and differentiate them into stages. The guava Cell Cycle Software Module allows you to identify and estimate the number of cells within the various phases of the cell cycle. The guava CellPaint Software Module allows you to track "painted" cells when mixed with other "unpainted" cells, which is useful in screening mAbs from hybridoma cell supernatants. The guava
xi

CellToxicity Software Module allows you to paint target cells to differentiate them from effector cells while monitoring cell-based cytotoxicity. The guava CellGrowth Software Module allows you to determine the number of proliferating cells in culture following mitogenic stimulation, as well as to assess the number of live versus dead cells. The guava RapidQuant Software Module allows you to quantify human and mouse IgG antibodies, typically found in hybridoma supernatants, using protein-bound capture beads. All assays allow you to view the data points and analyze further, if necessary, using gates and markers to generate the appropriate statistics.
About This Guide
The guava easyCyte HT System User's Guide provides detailed information on operating and maintaining the guava easyCyte HT Instrument, and using guavaSoftTM Software for data acquisition and analysis. This manual is intended for the guava easyCyte 5HT, 6HT, 6HT-2L, and 8HT instruments. Any reference to NIR, Red 2, and NIR 2 parameters, may not apply to your specific instrument. Refer to "easyCyte HT Lasers and Parameters" in Specifications for a complete list of the parameters available with each system. This guide assumes you have a working knowledge of Microsoft® Windows®. If you have any questions regarding the DellTM computer or the operating system, refer to the appropriate manufacturer's documentation.
For information on preparing samples, refer to the appropriate guava package insert that was shipped with your reagents.
Conventions Used in This Guide NOTE: Points out additional information that may be helpful. WARNING: Alerts you to situations that could result in bodily harm, instrument
damage, failure in a procedure, or incorrect results.
Bold: Indicates buttons to click or options within the software to select.
Italics: Used for names of user's guides and package inserts, as well as messages that appear on the screen.
Help
1 Read through the section of the guide specific to the operation you are performing. Refer to the table of contents and index to locate information. A glossary is included to assist you with any unfamiliar terms.
2 See the troubleshooting section at the end of each assay chapter for a list of problems and suggested solutions. The troubleshooting for all assays is also repeated in Chapter 17, Troubleshooting.
3 Refer to the technical support contact information listed below: · For ordering information or technical support, call toll-free: USA and Canada, Phone: +1 (800) 645-5476 Fax: +1 (951) 676-9209 · For additional contact information, visit www.millipore.com/flowcytometry

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guava easyCyte HT System User's Guide

Safety
The guava easyCyte HT System is equipped with safety features for your protection. Use the system only as directed in this user's guide. Do not perform instrument maintenance or service except as specifically stated. Please read the following safety information before using the system.
General Safety
WARNING: If this instrument is not used in the manner indicated by the instructions in
this guide, the safety features of the instrument may be impaired. Follow these guidelines: · To avoid damage to the instrument, be sure to remove the shipping restraint before
plugging in the instrument. · Always use the Eject Tray button in guavaSoft Software to open the sample tray.
Click Pause first, if necessary. Never open the tray with your fingers. Keep the area in front of the tray clear while it loads or ejects. · Ensure the sample tray is loaded before you turn off the power to the easyCyte HT System. · The use of tubes or plates other than those specified may result in damage to the instrument.
WARNING: Do not run any other programs, including Internet Explorer, on the laptop
while using guavaSoft Software to acquire data. guavaSoft Software requires the full resources of your laptop during data acquisition. Running other programs during a run may interfere with acquisition or interrupt the run.
Biological Safety
WARNING: All biological specimens and materials that come into contact with them
can transmit potentially fatal disease. To prevent exposure to biohazardous agents, follow these guidelines: · Handle all biological specimens and materials as if capable of transmitting
infection. Dispose of waste using proper precautions and in accordance with local regulations. Never pipette by mouth. Wear suitable protective clothing, eyewear, and gloves. · Add 10 mL of bleach to the waste vial after emptying it. Dispose of waste in accordance with federal, state, and local regulations.
· Always place empty tubes when indicated by the software (for example, tube locations w6 and w3 in Worklist Editor software). Empty tubes capture the water during a spin/dry after mixing.
Electrical Safety
WARNING: Turn off the main power switch at the back of the instrument and
disconnect the power cord before replacing fuses.
xiii

Laser Safety
The guava easyCyte HT System contains a Class IIIb laser operating at 488 nm in CW mode and a Class IIIb laser operating at 640 nm in CW mode. Light shields within the instrument enclose the path of laser radiation. Additionally, the instrument enclosure provides secondary protection from any laser radiation.
WARNING: To avoid exposure to laser radiation or electric shock, follow these
guidelines: · Do not open the instrument or attempt to perform any internal maintenance. There
are no user-serviceable parts. · Turn off the power to the guava easyCyte HT System before attempting to remove
the flow cell.
Precaution Labels
Following are examples of the labels affixed to the guava easyCyte HT Instrument:

GTI S/N GTI-5430090110
Manufactured: 0621005

guava easyCyte 8HT

Millipore Corporation 25801 Industrial Blvd. Hayward, CA 94545 (510) 576-1400

60/50Hz, 100-240 V ~ 120W

Complies with 21 CFR Chapter 1 Subchapter J.

C US

Caution consult accompanying documents
Example of easyCyte 8HT label

1000-5500 Rev A

Passed By: D.C. Date: 7/08/05

Replace fuses with same type and rating
See Users Manual for Instructions

CAUTION
Moving parts can crush and pinch hand. Do not operate with door open.

Limitations
· The guava easyCyte HT System is for research use only; not for use in diagnostic procedures.
· The results of the assays are dependent upon the proper use of the reagents and instrument. Refer to the appropriate package insert for specific instructions and limitations.

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guava easyCyte HT System User's Guide

CHAPTER 1 Introduction
guava easyCyte HT System
T he guava easyCyte HT System streamlines drug discovery, cell culture monitoring and screening by providing turnkey assays for a wide range of single-cellbased applications. The system includes the guava easyCyte HT Instrument, a laptop computer with pre-installed software for data acquisition and analysis, and optimized reagents and protocols. guavaSoftTM Software includes dedicated modules for cell- and bead-based assays, minimizing training requirements. In addition, the software includes the guava® easyCheck Module, which verifies that the system is performing optimally, and guava® Clean, a cleaning module that allows you to run an automated cleaning procedure.
CAUTION oDaMponeodnnv.opintingocppheahrratastnecdaw. nithcrduosohr
guava easyCyte HT System
guavaSoft Software automatically saves data files, which can be recalled later for offline analysis. In addition, data are exported to a spreadsheet file.
guava easyCyte HT System 1 - 1

System Components
The guava easyCyte HT System is shipped with the following components:

laptop computer

guava easyCyte HT Instrument

laptop power supply and power cord
USB cable

power conditioner

extension cable

guavaSoft Software CD

power cable

Hardware Connections
Although the guava easyCyte HT System is a portable unit, it contains precisely aligned optical components that are sensitive to jarring movements. Place the instrument on a stable surface in a dedicated location in the laboratory. Allow at least 4 inches between the back of the instrument and the wall for proper ventilation. Maintain easy access to the power cord in case the instrument needs to be disconnected in an emergency. The initial installation will be performed by an EMD Millipore field service representative.
WARNING: To avoid damage to the instrument, be sure to remove the shipping
restraint before plugging in the instrument.
NOTE: If the instrument needs to be moved to a new location in the lab area or
building, always use two people to lift and a sturdy transport such as a cart. If a longer distance move requiring packup is required, contact EMD Millipore. A Relocation and Installation service is available for a fee. See Appendix D: Order Information for details.
1 Connect the cytometer to the laptop computer with the USB cable.
2 Connect the power cable between the power conditioner and a grounded (threeprong) AC power outlet.

1 - 2 guava easyCyte HT System User's Guide

3 Connect the extension cable between one of the four power outlets on the back of the power conditioner and the power input on the cytometer.
4 Connect the laptop power supply to the laptop. Plug the power supply into the power cord, then plug the power cord into the power conditioner.
WARNING: The power conditioner is not a continuous power supply. Ensure that the
instrument is powered on during acquisition.
5 You can connect the computer to a local network or the internet. Refer to Appendix B: Administrator Features for more information. Contact your network administrator for assistance. You can also connect a printer to the computer. If you connect a printer, you must install the appropriate print drivers.
6 Refer to "System Startup" on page 2-1 for the correct procedure to start the laptop computer, guava easyCyte HT System, and guavaSoft Software.
7 Prime the fluid system by clicking Cleaning from the guavaSoft Software main menu and following the instructions to load tubes of deionized water and cleaning solution on the guava easyCyte HT System. Refer to "Running Guava Clean" on page 3-4.
guava easyCyte HT System 1 - 3

guava easyCyte HT System and Laptop Communication Troubleshooting

Problem

Possible Causes

Solutions

Laptop prompts for user Laptop is set up for

ID or password.

authorization.

Do not enter password. Click OK or Cancel to continue. Contact your IT department for assistance with any modifications. The original laptop setup does not require a password.

During start-up, laptop freezes on particular screen.

System may be searching Press Enter to continue. Reboot for directory during startup. computer, if necessary.

Message: The instrument appears to be either off or not connected. You can run in Analysis mode only.

1. guava easyCyte HT System is not turned on or is not getting power.
2. Cable connection between easyCyte HT System and laptop is loose.
3. easyCyte HT System and laptop were not powered on in correct sequence or have lost communication.

1. Ensure easyCyte HT System power cord is properly plugged in and system is turned on.
2. Ensure USB cable is securely connected to laptop. Reboot computer, if necessary.
3. Turn off easyCyte HT System, exit guavaSoft Software, restart laptop, turn on easyCyte HT System, start guavaSoft Software.

guavaSoft Software launches, but only Analysis mode is available when an assay is launched.

Registration code not entered or not entered correctly.

Enter registration code and ensure all characters are correct.

Laptop keeps shutting down.

1. Power supply to laptop is faulty.
2. Screen saver is interfering.

1. Ensure laptop is plugged in correctly. Use surge protector and ensure it is plugged in and turned on.
2. Adjust power scheme screen saver options. Click Start> Settings>Control Panel. Doubleclick Display, select Screen Saver tab, click Settings under Energy saving features of monitor. Make sure "Setting for Always On power scheme" are all set to Never. Laptop should not be allowed to "sleep." guavaSoft Software will stop acquiring data until the laptop is woken up.

1 - 4 guava easyCyte HT System User's Guide

Problem

Possible Causes

Solutions

For InCyte only Message: Sorry - this unlock is invalid.

Incorrect or no unlock key. Ensure the correct unlock key is entered. If necessary, contact customer support to obtain unlock key.

Noise occurring during sampling.

1. Mixer paddle is making contact with the plate.
2. Mixer paddle may be misaligned or bent.

1. Ensure you are using a compatible plate. See "Compatible Microplates" on page D-6.
2. Contact EMD Millipore Technical Support.

Message:

The door sensor switch is

The tray door is open. damaged.

appears when the door is

shut.

Contact EMD Millipore Technical Support.

Message: TRAY HOLD OFF STATE.

1. The program is waiting 1. Wait approximately 30 seconds

for the automation to

for re-initialization.

reset.

2. The tray door was

2. Keep tray door closed during

opened.

acquisition.

3. The program lost

3. Exit guavaSoft, turn the

detection of automation instrument off, then on again.

position or status.

Restart guavaSoft, then open the

worklist.

4. There is a mechanical or 4. Contact EMD Millipore Technical

electrical problem with

Support.

the automation or mixer

function.

WARNING: Do not run Excel®, Internet Explorer®, or any other program on the laptop
while using guavaSoft Software to acquire data from the guava easyCyte HT Instrument. guavaSoft Software requires the full resources of your laptop during data acquisition. Running other programs (even if you are not actively using them) during a run may interfere with acquisition or interrupt the run.

guava easyCyte HT System 1 - 5

guava easyCyte HT Instrument
The guava easyCyte HT Instrument was designed for easy operation and minimal maintenance. Other than the power switch, the sample tray and waste vial are the only components that you will routinely handle. The power switch is located on the back-right corner of the instrument.
access to flow cell

sample tray guava easyCyte HT System components

cleaning solution vial (right) waste vial (left)

Sample Tray
Sample aliquots are placed in a microplate or sample tube, then loaded in the sample tray. The tray holds one 96-well microplate and up to 10 sample tubes. A minimum sample volume of 100 µL is required for wells, 150 µL for 0.5-mL microcentrifuge tubes, and 900 µL for 1.5-mL microcentrifuge tubes.
WARNING: Do not attempt to open the sample tray door with your fingers. Always use
the Eject Tray button in guavaSoft Software to open the door, pausing the system first, if necessary. If you attempt to manually open the door, a warning message appears and the worklist automatically stops. If this happens, exit guavaSoft Software, then restart the program.
WARNING: On rare occasions, the software and instrument may pause to resynchronize
with each other. If this occurs, the system will pause for 2030 seconds and a message will appear in the status bar at the bottom of the screen indicating a "Tray Hold-Off." Although this is not serious and the system will resume again after synchronizing, be aware that after the tray hold-off occurs, the tray may move without warning.
For a list of microplates and tubes supported, refer to Appendix D: Order Information at the back of this manual.
NOTE: Snap-cap tubes can be used in place of the 1.5-mL screw-cap tubes (for
washing and cleaning) if the caps are cut off.
WARNING: The use of tubes or plates other than those specified may result in damage
to the instrument.

1 - 6 guava easyCyte HT System User's Guide

Cleaning Solution and Waste Vials

The cleaning solution vial (located on the right ) can be filled with guava Instrument Cleaning Fluid (ICF), for easy system cleaning. For information on filling the vial, refer to "Filling the Cleaning Solution Vial" on page 3-6.

The waste vial (located on the left ) captures the sample fluid after it exits the fluid system. Empty the waste vial at the end of each day or more often, if necessary. Add 5 mL of bleach to the vial after you empty it (see page 3-7 for information).

Fluid System

Sample uptake occurs though a capillary and is regulated by a variable-speed fluid pump. The pump does not require sheath fluid or other supplementary fluids for operation.

Because the system's sampling precision depends on the integrity of the fluid pathway, it is important to maintain a clean system. Do not allow samples to remain in the capillary for extended periods of time. Perform frequent cleaning cycles to prevent the build-up of cell debris that may restrict sample flow. If a clog does occur, you can clear it by using the backflush feature, which reverses the flow of fluid and flushes it out of the flow cell at a high speed. Refer to "Backflushing the Fluid System" on page 3-2 for instructions on using the backflush feature.

capillary

Some assays allow you to select the sample flow rate for acquisition. For most assays, the Medium flow rate is the default. This works well when the sample concentration is approximately 500 particles/µL. If the sample concentration is higher, dilute the sample or use a lower flow rate. For assays where the peak CV is critical, such as Cell Cycle, use the Low or Very Low flow rate. Always use the same flow rate for acquisition that you use for adjusting the settings.

Laser
The blue laser turns on when you turn on the easyCyte HT System; the red laser turns on when you open the guava easyCheck, guava ExpressPro, or guava InCyte Software Module. Both lasers turn off when you turn off the instrument.
For optimal laser performance allow the lasers to warm up for approximately 10 minutes before acquiring samples. If you will not be using the system for an extended period (6 hours or more), turn off the instrument. Managing the time the lasers are on will help extend laser life.
NOTE: For information on the easyCyte HT lasers, refer to easyCyte HT Lasers and
Parameters in Specifications.

guava easyCyte HT Instrument 1 - 7

guavaSoft Software Overview
Use guavaSoft Software for acquiring and analyzing data.
Main Menu
The guavaSoft Software main menu allows you to select an assay from either a list of favorites or the program search list. Essential Tools allows you to run easyCheck, clean the instrument, or select Setup, where you can customize your list of favorites. Use the links @ Millipore to quickly access Millipore websites for information.
Favorites
Favorites allows you to quickly select an assay. You can have up to seven assays at a time in your Favorites list. To add a favorite assay, select the assay from the Program Search list and click Add to Favorites. The new assay will be added to the bottom of the list. And if the list already consists of seven assays, the first assay in the list will be removed. To remove a favorite assay, click Setup under Essential Tools. Remove the check from the check box for the assay you wish to remove. Click DONE.
1 - 8 guava easyCyte HT System User's Guide

Program Search List
The Program Search List allows you to select an assay to run or open a template in InCyte. You can create a Favorites list to quickly select the assay later. The main menu allows you to select from the following list of assays: · guava ViaCount Assay for performing cell counting and viability assays · guava ExpressPlus Assay for performing one-, two-, and three-color assays · guava ExpressPro for performing assays with up to six colors, or where time, area,
and/or width parameters are necessary · guava InCyte for performing assays with up to six colors, or where time, area, and/or
width parameters are necessary · guava Nexin, guava Caspase, guava TUNEL, and guava MitoPotential Assays for
performing apoptosis assays · guava Cell Cycle Assay for performing cell cycle assays · guava CellPaint Assay for tracking target cells in mixed populations, or for
monoclonal antibody (mAb) screening in mixed cultures · guava CellToxicity Assay for cell-mediated cytotoxicity determinations · guava CellGrowth Assay for cell proliferation studies · guava RapidQuant Assay for quantifying human and mouse IgG antibodies
Essential Tools
easyCheck allows you to check the system's counting, fluorescence, and scatter performance prior to running samples. The guava easyCheck Bead is a standard reference particle used with this function. Cleaning allows you to run Guava Clean, an automated cleaning cycle that cleans the fluid system. Setup allows administrators to: · configure certain software features for specific users (see "Appendix B: Administrator
Features" for more information) · remove assays from your Favorites list · enter assay registration codes (see "Registering a guava Assay" on page 1-10)
NOTE: The Setup button is available only when an administrator is logged onto the
system.
links @ Millipore
This section allows you to access commonly used EMD Millipore websites.
guavaSoft Software Overview 1 - 9

Check for Updates
Select Check for updates to search online, or if you are not connected to the internet, any available USB drives, for the latest templates. The system will notify you if you currently have the latest templates installed. 1 If updated templates are available, the following dialog appears. Click Yes to install
the latest template package. Click Export to download the templates to a USB drive.
2 Click Close when you receive confirmation that the latest templates were installed. If you chose to export the templates to a USB drive, select the drive from the dropdown menu and select Export.
Exit
Closes guavaSoft Software
Registering a guava Assay
Using a guava assay to acquire data requires a registration code. In most cases, those codes are already entered. Should you need to enter a registration code, follow the steps below.
NOTE: InCyte requires an unlock key. If you get a message containing your computer
code and stating that the unlock is invalid, e-mail EMD Millipore Technical Support and they will provide you with an unlock key for InCyte.
1 - 10 guava easyCyte HT System User's Guide

1 Click Setup in the Essential Tool section of the main menu. The Customize guavaSoft window appears.
2 Enter the registration code under Assay Registration for the assay you wish to use. The registration codes are case-sensitive.
NOTE: You cannot enter the registration code for the guava InCyte assay.
3 Click Save at the bottom of list. 4 Click DONE.
You can now launch the assay and acquire data.
Templates
InCyte software templates are available for all FlowCellectTM assays. The templates can be used for acquisition and/or analysis. Open a template before acquiring your samples in InCyte. The instrument settings, plots, gates, and markers for the assay are contained in the template. If you already acquired data using either InCyte or another guavaSoft module, open the data file in the template and perform analysis using the Analysis Method provided. For more information on using the templates to analyze data, refer to the user's guide for the individual assay kit. 1 To open a template, select it from the Program Search list and click Launch.
The assay template opens in InCyte. 2 Select the Analyse or Acquire button at the top of the control panel. Perform
acquisition or analysis according to the instructions outlined in the kit user's guide.
guavaSoft Software Overview 1 - 11

· If you are acquiring samples, the instrument settings should be close to what you need. Check the settings and fine tune, if necessary.
· If you are analyzing InCyte-acquired data, but you acquired the data without the use of a template, you will need to drag the template Analysis Method to the Analysed Group. Check the gates and markers and fine tune, if necessary.
· If you are analyzing a data file acquired using a program other than InCyte, open the data file. The assay template will contain the appropriate Analysis Method. You will need to create an Analysed Group and drag the data file and the Analysis Method to the Analysed Group. Check the gates and markers and fine tune, if necessary.
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Acquisition Screen
WARNING: Do not run Excel, Internet Explorer, or any other program on the laptop
while using guavaSoft Software to acquire data from the guava easyCyte HT Instrument. guavaSoft Software requires the full resources of your laptop during data acquisition. Running other programs (even if you are not actively using them) during a run may interfere with acquisition or interrupt the run. The Acquisition screen appears when you enter the assay. Use the Acquisition screen to acquire data from samples you run on the guava easyCyte HT System. You can also perform data analysis from the Acquisition screen immediately following acquisition.
NOTE: The guava InCyte acquisition screen differs from the other applications. Refer
to Chapter 7, guava InCyte Assay for information on guava InCyte acquisition.
Click to switch to Analysis screen.
Control panels
Sample information (entered in WorkEdit Software)
Acquisition buttons and plate map

guava ViaCount Module Acquisition screen

Acquisition Buttons
The acquisition buttons are found on the individual assay Acquisition screens. These buttons perform the same functions regardless of the assay you are running, except as noted below.

Acquisition Button Worklist Editor

Description
Launches Worklist Editor Software from within the guava application. Applies to the guava InCyte, ExpressPro, RapidQuant, and Caspase Assays only.

guavaSoft Software Overview 1 - 13

Acquisition Button Start Worklist / Stop Worklist Settings
Pause / Resume
Next Abort Backflush Clean & Rinse

Description
Start Worklist opens the sample tray, then prompts you to load samples, select the worklist file, enter a file name for the data set, select a settings function, and select a well/tube for adjusting settings. Stop Worklist stops the assay after finishing the acquisition for the current sample. After stopping you cannot resume the worklist.
Presents a dialog box with options to save, retrieve, and adjust instrument settings. Save Settings allows you to save the current instrument settings and gates and markers to a separate file. Retrieve Settings allows you to recall instrument and analysis settings from a settings file and download the settings to the easyCyte HT System. Adjust Settings allows you to adjust instrument settings for the assay you are running, using the appropriate sample.
Pauses the assay allowing you to select Eject Tray, Settings, Quick Clean, Clean & Rinse, or Backflush, or to access the Analysis screen where you can view data from previously acquired samples. The acquisition of the current sample will finish before the system pauses, and the button will read Pause requested. Resume restarts the assay where it left off.
Proceeds to the next step in the data acquisition process. The data already acquired is saved. Next is not available during certain functions, for example during a washing or mixing step.
Stops the worklist and ejects the sample tray. The data for the current sample is not saved. You cannot resume an assay after you abort. You must reload the sample tray and start the assay from the beginning.
Reverses the flow of fluid out of the flow cell. Perform a backflush if the acquisition rate declines and you suspect a clog. During acquisition, click Pause before Backflush to pause the assay. Follow a backflush with a Quick Clean. Click Resume to restart the assay.
Thoroughly cleans the fluid pathway with a series of Quick Clean cleaning cycles and Backflush cycles. During acquisition, click Pause before Clean & Rinse to pause the assay. Click Resume to restart the assay. The system will automatically run a Clean & Rinse cycle at the end of the ExpressPro worklist, unless you selected Quick Clean for the Cleaning Option in Worklist Editor software.

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Acquisition Button Quick Clean
Eject Tray / Load Tray

Description
Cleans the fluid pathway. During acquisition, click Pause before Quick Clean to pause the assay. Click Resume to restart the assay. The system automatically performs a Quick Clean at the end of each guava easyCheck Cycle. If you selected Quick Clean for the Cleaning Option in Worklist Editor, the system will automatically run a Quick Clean at the end of the each assay. You may perform it more frequently, if needed.
Eject Tray opens the sample tray allowing you to add or remove a plate or tube. Load Tray retracts the sample tray.

Status Bar
The status bar, located at the bottom of the application window, indicates the user currently logged on and the instrument power status.

Analysis Screen
The Analysis screen allows you to analyze data from samples that were previously acquired. When you open a data set, the data for the first sample appears. The samples within the file are listed in the Analysis Sample List control panel. Click any sample to view the data for that sample. You can also click the Prev or Next button on the Unit Control panel or Sample Information control panel, or use the up/down arrows on the keyboard to select samples.
NOTE: guava InCyte Analysis differs from the other applications. Refer to Chapter 7,
guava InCyte Assay for information on guava InCyte analysis.

Click to switch to Acquisition screen.
Analysis results (vary with type of analysis)
Lists all samples within data set

Analysis buttons

guava ViaCount Module Analysis screen showing analysis buttons guavaSoft Software Overview 1 - 15

You can access the Analysis screen during data acquisition by clicking Pause, then Go to Analysis. You can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during an acquisition session. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. When the data set is complete, the data from the acquisition session is no longer accessible from the Analysis screen. To view the data, open the saved data file from the Analysis screen.

Analysis Buttons
The analysis buttons are found on the individual assay Analysis screens. These buttons perform the same functions regardless of the assay you are running. The results displayed will vary for each application. Refer to the specific application for details.
Access the Analysis screen to: · analyze existing data files from previously acquired samples · print results · export data to FCS 2.0 files or spreadsheet files · log comments for a particular sample or the data set · view the event log · access Worklist Editor (for guava InCyte, ExpressPro, RapidQuant, and Caspase
Assays only)

Analysis Button

Description

Worklist Editor
Log Comment View Event Log Apply Current Settings to Selected Samples Open Data Set
Export to FCS 2.0

Launches Worklist Editor Software allowing you to create a worklist. Applies to guava InCyte, ExpressPro, RapidQuant, and Caspase Assays only. The Worklist Editor button is at the top of the screen for these assays. To run a worklist, you must switch to the Acquisition screen.
Allows you to enter comments related to a sample or the data set. These comments are saved to the event log.
Click to display the Event Log window, which lists all errors, warnings, statuses, and actions that occurred during the run.
Allows you to transfer analysis settings from one sample to other selected samples within the Analysis Sample List. Available during analysis mode only.
Allows you to open an FCS 3.0 data file for analysis. The data for the first sample in the file appears. If you currently have a data file open, you will be prompted to save any changes before opening the new file.
Exports the current sample data to FCS 2.0 format, which is compatible with third-party analysis programs. Available during analysis mode only.

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Analysis Button Export to Spreadsheet
Export Std Curve CSV Print Preview Print

Description
Exports the results from the current FCS 3.0 file to a CSV (commaseparated values) file for later analysis using a spreadsheet program. This happens automatically if you make changes to and resave the FCS file during analysis. Available during analysis mode only.
Exports the standard curve and results from data table to a CSV (comma-separated values) file. Applies to RapidQuant Assay only.
Click this box if you wish to preview the analysis plots and statistics for the current data.
Prints the results for the current sample.

Files
For each assay, guavaSoft Software saves the following files: · a flow cytometry standard (FCS) 3.0 data file, which is saved automatically · an spreadsheet results file, which is saved automatically · a worklist file, which you create and save before you can run an assay
Additionally, you can optionally choose to save a separate file of instrument and analysis settings, as well as FCS 2.0 files for individual samples.
NOTE: To keep your computer performing optimally, periodically clear old files from
your hard drive by archiving the files to a back-up storage location.

Flow Cytometry Standard (FCS) 3.0 Data Files

FCS files are data files saved in a format compatible with standard flow cytometry analysis applications as defined by the Society for Analytical Cytology [Cytometry. 1990:11(3);323332]. One FCS 3.0 file is saved for all samples acquired within a data set.
When you start a new data set, you can enter a new file name or select an existing file. The file name assigned to the data file when you start a new data set is also assigned to the spreadsheet results file. An extension is automatically appended to the file name you enter. The first three characters represent the assay type, followed by .FCS.

Assay guava ViaCount guava ExpressPlus guava ExpressPro guava InCyte guava Nexin guava Caspase guava TUNEL guava MitoPotential

File name filename.VIA.FCS filename.EP5.FCS filename.PRO.FCS filename.FCS filename.NEX.FCS filename.CAS.FCS filename.TUN.FCS filename.MPL.FCS

guavaSoft Software Overview 1 - 17

Assay guava Cell Cycle guava CellPaint guava CellToxicity guava CellGrowth guava RapidQuant

File name filename.CCY.FCS filename.CPT.FCS filename.CTX.FCS filename.CGT.FCS filename.RPQ.FCS

NOTE: Always save guavaSoft Software's data files directly to the laptop's hard drive
during acquisition. You may copy the file(s) to another location when acquisition is complete.

Select a directory for file storage. Enter a file name for the data file. Or, select an existing file and either append to it or overwrite it--whichever method you select for saving the data file applies to the spreadsheet file as well.
Appending and Overwriting Existing Files
When you save a data set and you select an existing data file name, you are prompted to either overwrite or append to the file. The corresponding spreadsheet file is also overwritten or appended, and in the case of append, the sample # defaults to the next available number in the existing data file.

If you append data to an existing file, the instrument settings and analysis gates and markers are automatically updated to reflect the settings for the last sample in the file.
NOTE: Your system administrator may have configured guavaSoft Software to disable
appending and/or overwriting files. If appending only is disabled, you may create a new file or overwrite an existing file. If overwriting only is disabled, you may create a new file or append to a copy of an existing file. If both appending and overwriting are disabled, you must create a new file.
NOTE: You cannot append files when using guava InCyte. The append feature is not
available.
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Exporting to FCS 2.0 Format
To save FCS 2.0 files, click the AutoSave FCS 2.0 Files checkbox in the WorkEdit and WorkList Editor Software. This check box is selected, by default, for the Cell Cycle Assay. You may also export data to FCS 2.0 format from the Analysis screen for subsequent analysis using a third-party software program. FCS 2.0 files contain the data for an individual sample per file.
Event Log
Each time you run an assay, guavaSoft Software saves a log containing a list of all events that occurred during the assay. This information is contained within the FCS 3.0 data file. To view this list, click View Event Log from the Analysis screen. A list of all events appears with the date and time the event occurred. The Event Log window automatically appears at the end of the run if an error or warning occurred.
Allows you to filter the list.
You can filter the list to view errors, warnings, statuses, and/or actions. Click the appropriate check box(es) to display the types of events you wish to view. Every step the instrument performs, independent of the operator (for example, priming, setting thresholds, performing calculations) is logged. Every step the operator performs (for example, assay buttons clicked, selections, changes to gates and markers, logging comments) is also logged. During data analysis, although changes to settings are logged, the specific details of the change may not be. If errors or warnings occur during a run, a message appears in red in the status bar indicating that errors/warnings have been logged and how many times they have occurred. Warnings include: · Less than 10 (25 for the Cell Cycle Assay only) particles/µL. Sample is too dilute.
Accuracy may be compromised.
guavaSoft Software Overview 1 - 19

· More than 500 (1200 for the Cell Cycle Assay and 2500 for the RapidQuant Assay) particles/µL. Sample is too concentrated. Please dilute or accuracy may be compromised. In the Guava ExpressPlus Assay, the high concentration warning limits are based on the flow rate selected--the default values are 500 particles/µL for Medium, 800 for Low, and 1200 for Very Low. The default values for the guava ExpressPlus, guava ExpressPro, guava InCyte, guava RapidQuant, and guava Caspase Assays can be changed in WorkEdit Software, and the warnings will reflect the new user-defined concentrations. However, EMD Millipore does not recommend entering values higher than the default values.
· The run timed out before enough events were acquired. · Adjust Settings timed out. Please re-enter Adjust Settings if necessary to complete the
instrument set-up. · Maximum velocity exceeded for "x" events. (applies only to area/width parameters) · Your system has only "xx" MB of free disk space left. (appears when trying to save a
guava ExpressPro Assay data file with 500 MB or less of free disk space)
Errors include: · The tray door was opened. When you click OK, worklist will be halted but your
acquired data will be saved. To continue, either restart the worklist or create a new worklist beginning from the well that was aborted when the door was opened. · Too few events for EasyFit Analysis. (for ViaCount Assay only, if EasyFit Analysis is enabled) · Too much debris for EasyFit Analysis. (for ViaCount Assay only, if EasyFit Analysis is enabled) · EasyFit Analysis could not be performed on this sample. (for ViaCount Assay only, if EasyFit Analysis is enabled) · Error occurred while trying to generate FCS 2.0 file for the sample no. x. · Error occurred while updating gate definitions. (for guava ExpressPlus and ExpressPro Assays only)
To export the log to a text file, click Export. Select the storage location and enter a file name. Then, click Save.
Spreadsheet Files
guavaSoft Software creates a spreadsheet file containing data for all samples within a data set. This file can be opened and analyzed using a spreadsheet program such as Microsoft® Excel. The file name you assign to the FCS 3.0 data file is also used for the spreadsheet file. The extension .CSV is appended to the spreadsheet file name. The spreadsheet file is saved in the same directory as the data file and contains all the relevant statistical results, sample information, and instrument settings for each sample run within a data set. For the guava ExpressPro and guava RapidQuant Assays, the sample information and instrument settings are automatically exported, but you must manually select the statistical results for each sample within a data set. For information on selecting the statistics to export to the spreadsheet file for these assays, refer to "Selecting Statistics for the Spreadsheet File" on page 6-22 and "Selecting Statistics for
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the Spreadsheet File" on page 16-17.
NOTE: When you analyze a data set in Analysis mode and save the changes, a
spreadsheet file is automatically created. If you click Stop in the Export Spreadsheet dialog box before all sample data is exported, only the sample data that was exported before you clicked Stop will appear in the spreadsheet file. If you wish to create a spreadsheet file to include all data, use the Export to Spreadsheet option (see page 117).
The guava Excel Utility program allows you to extract the viability and concentration information from the CSV file and save it to a separate Excel file. For information on this utility, which is installed on your guava laptop computer, refer to "Guava Excel Utility" on page 4-21.

Worklist Files
A worklist file contains all of the information for each well/tube entered at the WorkEdit (or WorkList Editor) screen. You must save a worklist file before you can run a guava assay, except in the guava ExpressPro, InCyte, Caspase, and RapidQuant Assays where a worklist can be started immediately. The extension .gwl is appended to the worklist file name, except for InCyte worklists, which are .xml files. Refer to "Creating a Worklist" on page 1-29 for more information on worklists.

Settings Files

guavaSoft Software allows you to save settings files. These files contain instrument settings as well as analysis gates and marker settings. An extension is automatically appended to the file name you enter. The first three characters represent the assay type, followed by .GST for guava Settings.

Assay guava ViaCount guava ExpressPlus guava ExpressPro guava InCyte guava Nexin guava Caspase guava TUNEL guava MitoPotential guava Cell Cycle guava CellPaint guava CellToxicity guava CellGrowth guava RapidQuant

File name filename.VIA.GST filename.EP5.GST filename.PRO.GST filename.GST filename.NEX.GST filename.CAS.GST filename.TUN.GST filename.MPL.GST filename.CCY.GST filename.CPT.GST filename.CTX.GST filename.CGT.GST filename.RPQ.GST

guavaSoft Software Overview 1 - 21

Settings
guavaSoft Software allows you to save the current instrument settings and analysis gates and markers to a file. You can recall this file later to: · download the instrument settings to the guava easyCyte HT System for acquisition · apply the gates and markers to data during acquisition
Saving Instrument Settings and Analysis Markers
You cannot save settings until you have performed the adjust settings step. 1 Click Settings from the Acquisition screen.
The following dialog box appears.
2 Click Save Settings. Enter a name for the file, select the directory where you wish to save it, and click Save.
Retrieving Instrument Settings and Analysis Markers
1 Click Settings from the Acquisition screen. The following dialog box appears.
2 Click Retrieve Settings.
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3 Locate the file and click Open.
The settings are downloaded to the guava easyCyte HT System and the software automatically proceeds to the settings dialog box.
NOTE: If you retrieve instrument settings after you perform the adjust settings step,
you will be required to repeat the adjust settings step to ensure that the thresholds are set correctly.
Worklists
WorkEdit Software
WorkEditTM Software allows you to set up the acquisition commands to acquire samples from a microplate and/or 10 tube locations in the sample tray. WorkEdit Software applies to the following assays: guava ViaCount, guava ExpressPlus, guava Nexin, guava TUNEL, guava MitoPotential, guava Cell Cycle, guava CellPaint, guava CellToxicity, or guava CellGrowth. The right side of the screen displays a map for the microplate, allowing you to select wells for acquisition. Above the plate map are locations for up to 10 tubes for samples and six tubes for washing and cleaning functions. The left side of the screen allows you to select the assay, the number of events to acquire for each selected well/tube, the number of acquisition replicates, and the acquisition order. You can also select to save FCS 2.0 files for each sample, wash the mixer and/or capillary, and choose to mix samples before acquisition. You can also create a CSV file that can be used as a template and modified using Excel or other spreadsheet program to quickly create subsequent worklists. See "Creating a Worklist Template" on page 1-33. The information entered in WorkEdit Software will appear in the Sample Information control panel in guavaSoft Software during the assay. However, you cannot modify the information within guavaSoft Software. See "Worklist Editor Software" on page 1-27 for more information on how Worklist Editor Software functions with the guava InCyte, ExpressPro, RapidQuant, and Caspase Assays.
Worklists 1 - 23

NOTE: The options you select within WorkEdit Software will always supersede the
settings from a file that you retrieve settings from or append.
microcentrifuge tubes Six locations are dedicated to cleaning: Sspin/dry Wwash QQuick Clean BBackflush
96-well plate

guava WorkEdit Software screen
WorkEdit Fields

Field Assay

Description
Choose guava ViaCount, guava ExpressPlus, guava Nexin, guava TUNEL, guava MitoPotential, guava Cell Cycle, guava CellPaint, guava CellToxicity, or guava CellGrowth. You may select only one assay per worklist.

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Field Well
Acquisition Order Capillary and Mixer

Description
· Click Acquire this sample after selecting a well/tube for acquisition. Wells/tubes selected for acquisition appear in green.
· Enter the number of Events to acquire for the selected well/tube. The default is 1000 for the ViaCount and CellToxicity Assays, 3000 for the three-color guava Caspase Assay, 5000 for the guava ExpressPlus, guava InCyte, guava ExpressPro, and Cell Cycle Assays, 500 for the guava RapidQuant Assay, and 2000 for all other assays. The ranges are 100 to 100,000 (CellToxicity Assay), 200,000 (guava ExpressPlus, guava ExpressPro, guava RapidQuant, and guava Caspase Assays), and 20,000 (all other assays). For the guava ExpressPlus, guava ExpressPro, guava RapidQuant, and guava Caspase Assays, you may also set an acquisition duration (1600 seconds), depending on the flow rate selected. Acquisition ends when the first limit (number of events or time limit) is reached.
· Enter an optional Sample ID for each individual well or tube. If you do not enter an ID, the ID defaults to the well/tube number.
· Select the number of Replicates (28 for wells; 215 for tubes). If you wish to acquire the sample only once, select No.
· Check Autosave FCS 2.0 files to save files in FCS 2.0 format. This option is selected as the default for the Cell Cycle Assay.
NOTE: All well features can be applied to selected wells.
Choose by Row or by Column to acquire selected wells by row or column. The recommended acquisition order is by Row. Acquiring by row starts with row A (wells A1, A2, etc) and ends with row H. Acquiring by column starts with column 1 (wells A1, B1, etc) and ends with column 12. Only the wells selected in the worklist will be acquired. If tubes and wells are selected for acquisition, samples in tubes will be acquired in numerical order before samples in wells.
Select Wash only capillary to wash the capillary between samples. Select Wash both capillary and mixer if you choose to mix samples and wish to wash the capillary and mixer between samples. All washing functions apply to the entire run (tubes and wells). Select Mix the sample for (110) seconds, then select Low, Med, or High mixing speed. All mixing functions apply to the entire run (tubes and wells), except for guava ExpressPlus, guava ExpressPro, and guava InCyte Assays, which allow you to choose mixing times and speeds for individual samples. Select an option to perform a Quick Clean cleaning cycle during the run. Choose once at the end of the plate, every 48 samples, every 24 samples, every 12 samples. Regardless of the option selected, the system will always perform a Quick Clean after the last sample. For the guava ExpressPro Assay only, you can select to perform a Clean & Rinse during the run for a more thorough cleaning. Choose once at the end of the plate (default if Clean & Rinse if selected), every 48 samples, or every 24 samples.

Worklists 1 - 25

Field
AssaySpecific (Sample Specific) Parameters

Description
This information applies to guava ViaCount, guava ExpressPlus, guava ExpressPro, and guava InCyte Assays.
· For ViaCount Assay, enter the dilution factor and original volume (defaults are 20 and 10, respectively). Select Enable EasyFit if you would like the software to calculate viable and dead/apoptotic cells for you. The EasyFit Analysis feature will apply to the entire run (tubes and wells).
· For guava ExpressPlus, guava ExpressPro, and guava InCyte Assays, enter the dilution factor and original volume (defaults are 1 and 10, respectively). You may lower the high concentration warning limits from the default values shown, if necessary. EMD Millipore does not recommend entering values higher than the default values. The software will display a warning message during acquisition if the cell concentration exceeds the concentration value you enter for the selected flow rate.

Use the buttons at the bottom of the WorkEdit screen:
· Export to CSV to save a CSV template file for an assay. Select the assay and click Export to CSV. Enter a filename and click Save.
· Reset to clear all changes and revert back to the original screen when WorkEdit was first opened.
· Print to print the WorkEdit screen.
· Import from CSV to import values from a CSV file, for example, a template file that you exported, into a worklist file
· Open Worklist File to open a saved worklist file. WorkEdit software worklist files are saved with the extension .gwl.
· Save Worklist File to save a worklist file.
NOTES: When you export a worklist to a CSV file, you can then edit the file using
Microsoft Excel or other third-party spreadsheet program. The Sample ID, Sample Well, and General settings fields are required. If fields
are blank or values are erroneous, a default value will appear and a message will indicate this. If all values for a particular column are identical, the item and value can be added to General settings. If an item is mentioned in both the column and General settings, the column values are given preference. The Assay Type field in General settings is required. A sample position can be designated for acquisition by making any alphanumeric entry in the Sample ID field. Columns and the values in General settings can be reordered.

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Worklist Editor Software
Worklist Editor Software applies to the guava ExpressPro, RapidQuant, Caspase, and InCyte Assays
If you are using the guava ExpressPro, guava RapidQuant, guava Caspase, or guava InCyte Assay for data acquisition, you can open Worklist Editor Software directly from the assay screen by clicking Worklist Editor in the acquisition button panel. Worklist Editor launches within each software module. You can also open Worklist Editor from the Analysis screen, however, only to generate, modify, and save worklists. To run a worklist you must be in Acquisition mode. The basic layout of the Worklist Editor window is the same as WorkEdit Software with a few additional features.
The information entered in Worklist Editor will appear in the guava ExpressPro, guava RapidQuant, guava Caspase, or guava InCyte Sample Information control panel during the assay. However, you cannot modify the information once you start the worklist.
For guava InCyte you can create a CSV file that can be used as a template and modified using Excel or other spreadsheet program to quickly create subsequent worklists. See "Creating a Worklist Template" on page 1-33.

96-well plate
guava Worklist Editor screen from within guava ExpressPro Assay

microcentrifuge tubes
Six locations (seven for ExpressPro) are dedicated to cleaning:
Sspin/dry Wwash QQuick Clean BBackflush CClean & Rinse (Express Pro only)

Worklists 1 - 27

The Worklist Editor for guava InCyte varies slightly from the Worklist Editor for the other four assays, mainly in the button panel.
microcentrifuge tubes

96-well plate

Seven are dedicated to cleaning:
Sspin/dry Wwash QQuick Clean BBackflush CClean & Rinse

guava Worklist Editor screen from within guava InCyte Assay
Follow the same instructions for creating a worklist found on page 1-29. Once you have selected the tubes/wells and entered the acquisition information, click Start this Worklist (Run Worklist for InCyte) to start the worklist.
You can also click: · Open Worklist File (Open in InCyte) to open a saved worklist file · Save Worklist File (Save in InCyte) to save the worklist to a file · Clear (Reset in InCyte) to clear all changes made and revert back to the original screen · Print to print the Worklist Editor screen · Close to close the window and return to the assay · Export to CSV for WorkList Editor launched from guava InCyte, to export a CSV file. See notes below.
NOTES:
You cannot print the worklist screen from InCyte's WorkList Editor. You cannot import or export CSV files from ExpressPro, Caspase, and
RapidQuant WorkList Editor.

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Creating a Worklist
Use WorkEdit Software to select wells and/or tubes for acquisition, and program specific acquisition commands.
1 Open WorkEdit Software by double-clicking the WorkEdit icon on the desktop. For the guava ExpressPro, guava InCyte, guava RapidQuant, and guava Caspase Assays, click Worklist Editor from the assay window.
NOTE: Do not open WorkEdit Software while guavaSoft Software is running, except
when in the guava ExpressPro, guava InCyte, guava RapidQuant, or guava Caspase Assay.
2 Select the Assay Type. You can select one assay per worklist file. Assay-Specific Parameters will appear at the bottom-left corner of the WorkEdit screen for the ViaCount, ExpressPlus, ExpressPro, and RapidQuant Assays.
NOTE: This step does not apply to the guava ExpressPro, InCyte, RapidQuant, and
Caspase Assays.
3 Select wells/tubes for acquisition. You may select wells/tubes all at once, or you can select groups of wells that will have the same acquisition criteria applied to them (see steps 57).
NOTE: Tube locations w1 through w6 are designated for capillary/mixer washes,
instrument cleaning, and backflushing. Tube location 10 is designated for washing if you select Clean & Rinse for the guava ExpressPro and InCyte Assays only. · Click an individual well/tube to select it. To select groups of wells/tubes, click and drag, or press the Shift key and click. To select non-adjacent wells/tubes, press the Ctrl key and click the wells/tubes. · Click letters AH on the microplate map to select a row. · Click numbers 112 on the microplate map to select a column. · Click the white box in the upper-left corner of the plate map to select the entire plate. · To deselect, press the Ctrl key while clicking the well/tube, column, or row.
4 Click Acquire this sample to mark the selected wells/tubes for acquisition. The wells/tubes selected for acquisition appear green.
5 Enter the number of events to acquire for the selected wells/tubes. The default is 500 for the RapidQuant Assay, 1000 for the ViaCount and CellToxicity Assays, 3000 for the three-color (SR and FAM with 7-AAD) guava Caspase Assay, 5000 for the guava ExpressPlus, guava ExpressPro, InCyte, and Cell Cycle Assays, and 2000 for all other assays. The range is 100 to 2 x 104 (100 to 1 x 105 for the CellToxicity Assay, 100 to 2 x 105 for the guava ExpressPlus, guava ExpressPro, guava InCyte, guava RapidQuant, and two-color guava Caspase Assays, and 3 x 103 to 2 x 105 for the three-color guava Caspase Assay).
NOTE: Acquiring events significantly above these recommended ranges, especially
with a high sample number, may eventually overload the computer's system memory and cause errors.
Worklists 1 - 29

6 For guava ExpressPro, InCyte, RapidQuant, and Caspase Assays, select a time limit. This time is the maximum time that sample will be acquired, up to the maximum time allowed for a given flow rate.
7 Enter the number of acquisition replicates for the selected wells/tubes. For wells, you may select 28 replicates; for tubes, you may select 215 replicates. To select only one acquisition per well/tube, select No.
NOTE: Although you can acquire replicates using guava InCyte, you cannot analyze
replicates.
8 Check the Autosave FCS 2.0 files check box if you want to save files in FCS 2.0 format for the selected wells/tubes.
NOTE: Keep in mind FCS files can take up significant space on your hard drive. Back
up data regularly to keep your computer performing optimally.
9 Select the Acquisition Order. Choose either by Row or by Column. If you selected tubes for acquisition, samples in tubes will be acquired before the samples in wells. The recommended acquisition order is by Row.
10 Select the appropriate wash and mix features. The options you select apply to the entire run (tubes and wells). · If you choose to wash the capillary only, place a 1.5-mL microcentrifuge tube filled with deionized water in tube position w5. · If you choose to wash the capillary and the mixer, place two 1.5-mL microcentrifuge tubes filled with deionized water in tube positions w2 and w5, and place two empty tubes in positions w3 and w6.
NOTE: Select to wash the mixer only if you are mixing samples. NOTE: To minimize carryover, EMD Millipore recommends changing the wash water
in w2 after every plate.
NOTE: When washing the capillary and mixer, change the tube in w3 at the end of
every plate if it's more than a third full.
For washing capillary and mixer, load tubes filled with water in positions w2 and w5. Load empty tubes in positions w3 and w6. Load a tube with 100 µL bleach in position w1 for backflushing. Always load a tube filled with water in position w4 for the Quick Clean, which is run automatically at the completion of the assay. For ExpressPro only, when running Clean & Rinse, load tubes filled with guava ICF in position 10, filled with water in position w4, and containing 100 µL bleach in position w1.
· You can choose to mix each sample before acquiring it. Then, select the length of time and speed you wish to mix each sample. For the guava ExpressPlus, guava
1 - 30 guava easyCyte HT System User's Guide

ExpressPro, guava InCyte, and guava RapidQuant Assays, the mixer speed and mix time can be applied to individual wells or tubes.
NOTE: EMD Millipore recommends mixing at high speed for 3 seconds; although
certain cell types may require a longer mixing time at the same or lower speed. · Select the frequency of performing a Quick Clean during the assay. For the guava
ExpressPro Assay only, you can choose one of two cleaning options--Quick Clean or Clean & Rinse. If you choose Clean & Rinse, place a 1.5-mL microcentrifuge tube filled with guava Instrument Cleaning Fluid (ICF) in position 10. Ensure that the tube in w1 contains 100 µL of bleach for backflushing and the tube in w4 is filled with DI water for both Clean & Rinse and Quick Clean.
IMPORTANT: You can use Clean & Rinse a total of four times before you need to
refill the w4 tube with water and tube 10 with ICF, and empty then add 100 µL of bleach to the w1 tube for backflushing. Always remember to fill and/or empty these tubes after every four Clean & Rinse cycles or at the end of each run.
NOTE: EMD Millipore recommends performing a Quick Clean at least every 24
samples for the guava Cell Cycle and guava MitoPotential Assays.
11 If applicable, proceed to the assay specific parameters at the bottom of the screen for the guava ViaCount, guava ExpressPlus, guava ExpressPro, guava InCyte, and guava RapidQuant Assays. · For the ViaCount, guava ExpressPlus, guava ExpressPro, and guava InCyte Assays enter the dilution factor and the original volume. The original volume is the volume of the cell suspension, from which you took your sample aliquot, before you diluted or stained it. · For ViaCount Assay only, select EasyFit if you want the software to calculate viable cells and dead/apoptotic cells. The placement of the viability and FSC threshold markers will be ignored by the EasyFit Analysis algorithm during analysis. If you select EasyFit, all samples within the entire run will be analyzed and saved with the EasyFit Analysis method. Once you select EasyFit you cannot change the setting during acquisition. However, you can turn off the feature later (for selected samples) during analysis from the Analysis screen and manually analyze the data by setting the viability marker and apoptosis marker, if you wish. You can also acquire data without the EasyFit Analysis feature enabled, and enable it later (for selected samples) during analysis. For more information on using EasyFit Analysis, refer to "EasyFit Analysis" on page 4-10. For examples of when to use EasyFit Analysis versus manual analysis, refer to Appendix A: EasyFit Case Study Examples.
12 For the guava ExpressPlus, guava ExpressPro, guava InCyte, and guava Caspase Assays, lower the high concentration warning limits from the default values shown, if necessary. The software will display a warning message during acquisition if the cell concentration exceeds the concentration value you enter for the selected flow rate.
Worklists 1 - 31

There is also a high concentration warning limit in the RapidQuant Assay; however it should not be adjusted under normal conditions.
For guava ExpressPlus Assays
For guava ExpressPro and guava Caspase Assays
For guava InCyte Assay
For guava RapidQuant Assay
NOTE: If you are acquiring in the ExpressPlus, InCyte, or ExpressPro Software
Module and your samples are heterogeneous in size or granularity, such as lysed whole blood, or do not contain cells simultaneously positive for two fluorochromes, such as PBMCs stained with CD3 and CD19, consider lowering the default high concentration warning limits (and acquiring your cells at lower concentrations). This will minimize the number of coincident events, which could adversely affect your results. EMD Millipore recommends a concentration of less than or equal to 200 cells/ µL for these types of samples. 13 Click Save Worklist File to save the file. Worklist files are saved as .gwl, except for InCyte worklist files, which are saved as .xml or .csv files.
14 Click Print if you wish to print the WorkEdit screen. 15 Close the WorkEdit window before starting guavaSoft Software by clicking the close
box in the upper-right corner of the window. If you launched Worklist Editor from within the guava InCyte, ExpressPro, RapidQuant, or Caspase Assay, click Start this Worklist if you are ready to begin the assay.
1 - 32 guava easyCyte HT System User's Guide

Creating a Worklist Template
You can create a worklist template for WorkEdit software and Worklist Editor software for InCyte only. The template can be modified and updated using Microsoft Excel or similar spreadsheet program. To create the template, you will export a worklist, then use Excel or other spreadsheet program to edit the fields. Then, simply import the file back into WorkEdit (or Worklist Editor for InCyte) Software to run your worklist.
NOTE: You cannot create a CSV file if you are using Worklist Editor Software for
ExpressPro, RapidQuant, or Caspase Assays. 1 Open WorkEdit or Worklist Editor and select the desired settings to create a worklist.
2 Export to a CSV file. This CSV file will serve as your template. · If you are using WorkEdit software, select Export to CSV. · If you are using Worklist Editor Software for InCyte, select Export CSV.
3 Open the CSV file in Excel or compatible spreadsheet software. · Edit the Sample ID column, as necessary (up to 40 characters). · Do not modify the Sample Well column. This information pertains to the sample well or tube location. · The Sample ID, Sample well, Assay Type, and General settings headers are required. · To designate a sample for acquisition, enter a value in the Sample ID field. · If values are not entered for certain fields, default values may apply. · If values entered are not valid (for example, non-numerical values in fields that require numbers), default values are applied. For InCyte, an error message appears, indicating the applicable cells. · Columns positions (headings) can be changed, as can General settings values. · Templates for InCyte and ExpressPlus are unique in that they include columns for Mix speed and Mix time. These assays allow sample-specific Mix Speed and Mix Time settings.
4 Save the file as .csv. Do not save it in Excel format (for example, .xls).
5 Open the file in Worklist Editor or WorkEdit software for the application that you are running. · If you are using WorkEdit software, select Import from CSV. · If you are using Worklist Editor Software for InCyte, select Open.
Worklists 1 - 33

1 - 34 guava easyCyte HT System User's Guide

CHAPTER 2 Getting Started
System Startup
1 Turn on the power conditioner if it is not already on. Once it is powered on, it can remain on.
2 Turn on the laptop computer. 3 When the computer is finished booting up, turn on the guava easyCyte HT System.
The power switch is located half-way up on the right side at the back of the instrument (see figure of "guava easyCyte HT System components" on page 1-6). 4 Start guavaSoft Software by double-clicking the guavaSoft 2.7 application icon on the desktop. You can also click the Start button, point to Programs, point to Millipore, point to guavaSoft 2.7, then click guavaSoft.
NOTE: If the software detects a communication problem with the easyCyte HT
System or that the system is not turned on, the following message appears.

guavaSoft Software will start but you will be able to access an assay's Analysis mode only. If you wish to perform acquisition, exit guavaSoft Software. Ensure that the USB cable between the computer and the instrument is securely connected before restarting the computer. When the computer is finished booting up, turn on the guava easyCyte HT System and start guavaSoft Software.

System Startup

2 - 1

Running the easyCheck Procedure
Run the easyCheck Procedure at the start of each day you use the guava easyCyte HT System to ensure the system is performing properly. easyCheck averages the results from three acquisitions of a guava easyCheck Bead sample to determine if the results are within the expected range.
NOTE: Before running the easyCheck Procedure, perform a Quick Clean to prime the
fluid system. If it has been more than a day since you used your guava system, perform two Quick Cleans using water to prime the fluid system. 1 Prepare a 1:20 dilution of the guava® easyCheck Bead Reagent. Refer to the guava easyCheck Kit package insert for information.
2 Click easyCheck from the main menu. Allow the instrument to warm up for 10 minutes before acquiring the beads.
Enter bead lot #, expiration date, and particles/mL.
3 The first time you run the easyCheck Procedure, enter the Bead Lot # and Bead Expiration Date (found on the guava easyCheck Bead Reagent vial label) and Expected Particles/mL in the appropriate fields. Thereafter, enter any necessary changes to these values. Optionally, you may enter the guava® easyCheck Kit lot number and expiration date (found on the side of the guava easyCheck Kit box). The Expected Particles/mL is approximately 50,000; however, check the information card that comes with the guava easyCheck Kit for the actual particle count for each new lot. The particles/mL corresponds to the concentration of beads in your prepared sample where the guava easyCheck Bead Reagent was diluted 1:20 with Guava® Check Diluent.
NOTE: Your system administrator may have configured guavaSoft Software to
require that you enter values in these fields each time you run the easyCheck Procedure. If the fields are blank when you access the easyCheck screen, you must enter the current information.
2 - 2 guava easyCyte HT System User's Guide

4 Click Start.
WARNING: Keep the area in front of the tray clear as the tray ejects.
5 The sample tray opens and a dialog box appears prompting you to load DI water, and empty tubes, and select the tube/well containing the beads. · Load tubes filled with DI water in w2, w4, and w5.
IMPORTANT: Always load tube position w4 with water (for Quick Clean).
· Load empty tubes in w3 and w6. · Load a tube containing 100 µL of bleach in position w1 (for disinfecting
backflushed fluid) · Load the easyCheck sample in a 0.5-mL tube. · Click to select the tube/well with beads. · Click OK.
WARNING: If you click Cancel in the dialog box, the tray will automatically load. Keep
the area clear as the tray loads.
NOTE: If you are using a microplate, make sure well A1 of the plate is in the top-right
corner of the tray.

The system then automatically performs the adjust settings function and acquires three replicates of the bead sample and displays the Particles/mL, FSC Intensity, SSC Intensity, and GRN, YLW, RED, NIR, RED2, and NIR2 (if applicable) mean fluorescence intensity (MFIs) for each replicate. The averages and %CVs for all results are also displayed.
ACQUISITION NOTES
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 1 minute.
· If the acquisition rate appears to slow dramatically, the fluid pathway may be blocked or the sample volume may be low. If you have sufficient sample, click Stop and wait for the system to stop, then click Backflush. When the backflush is complete, click Quick Clean. When the cleaning in complete, click Start.

Running the easyCheck Procedure

2 - 3

easyCheck Results
The software displays the %CVs and the averages for the particles/mL (bead count), FSC and SSC intensities, and GRN, YLW, RED, NIR, RED2, and NIR2 (if applicable) mean fluorescence intensity (MFI) for the three replicates.
· If any result for Particles/mL falls outside ±10% of the expected value, the result is outside the acceptable range and appears in red. For example, if the actual particle count is 50,000, the acceptable Particles/mL range (±10%) is 45,000 to 55,000.
· If the %CV for Particles/mL is >10%, it appears in red.
· The %CV for FSC and SSC Intensities, and GRN/YLW/RED/NIR/RED2/NIR2 MFI for the three replicates should be <5%.

NOTE: Example of results from instrument with all six detectors installed.

Check Results displays the Particles/mL for each replicate. Results appearing in red are outside the ±10% acceptance range.
FSC and SSC Intensities and GRN/YLW/RED/NIR/RED2/ NIR2 MFI results can be used to monitor instrument performance over time.

Refer to the information card that comes with the guava easyCheck Kit for the acceptable intensity ranges for each parameter. This information may change from lot to lot.
To monitor instrument performance, look at the average and %CV values for FSC and SSC Intensity and GRN, YLW, RED, NIR, RED2, and NIR2 (if applicable) MFI. Refer to "Viewing and Exporting easyCheck Results" on page 2-5 for information on displaying past easyCheck results.
If the Particles/mL (count) for a replicate or the average falls outside the acceptance range, or if an intensity value is outside the acceptable range, run Quick Clean (refer to page 3-1) or Clean & Rinse (see page 3-3). Rerun the easyCheck Procedure after cleaning is complete. If values continue to fall outside the acceptance range, refer to "easyCheck Procedure Troubleshooting" on page 2-8, for more information.
If the signal intensity for any of these parameters shows significant drift over time beyond the range listed, and this change is not correlated to a change in the bead lot, a new flow cell, or instrument service, contact EMD Millipore.

2 - 4 guava easyCyte HT System User's Guide

Viewing and Exporting easyCheck Results
To display a history of all easyCheck runs and view the results for individual runs, click Show History at the bottom of the easyCheck screen. The History List control panel opens showing a list of all easyCheck runs. To display the results for a particular run, click on the run in the list.
Click to display the results for a particular run.
Show History
NOTE: Example of easyCheck Procedure history results from instrument with no SSC detector installed.
· Click Log Comment to enter comments related to the run and save these comments to the event log.

· Click View Event Log to display the event log, which lists all errors, warnings, statuses, and actions that occurred during the easyCheck run. For more information

Running the easyCheck Procedure

2 - 5

on the event log, refer to "Event Log" on page 1-19.
· Click Show Trend Graph to display a trend graph of the Particles/mL value from the last 30, 60, or 90 runs. See "Viewing Trend Data" on page 2-7.
· Click Print Screen to print the results. A print dialog box appears allowing you to select the printer.
· Click Export to Spreadsheet to export the data from all easyCheck runs to a spreadsheet file. The file contains the average and %CV for each parameter, as well as the details for each replicate of all runs.
2 - 6 guava easyCyte HT System User's Guide

Viewing Trend Data
To view a trend graph of the Particle/mL data, click Show History at the bottom of the screen, then click Show Trend Data.
A trend graph appears showing the Particles/mL results from the last 30, 60, or 90 runs. A data point appears for each of the three replicate values. The date appears for every seventh or eighth time that the easyCheck Procedure was run.

Legend
Display data from last 30, 60, or 90 runs.

A legend in the lower-right corner of the window lists the information found on the graph. A description of the items in the legend appears in the following table.

Legend Item

Description

Replicates Outside Range data point appears as a red triangle (value falls outside the high or low, 10% limit lines)

Replicates Within Range data point appears as a black triangle

Median of Replicates

a black line connects the median values from each triplicate

Limit High

pink line that appears 10% above expected particle count

Target

green line at the expected particle count entered

Limit Low

pink line that appears 10% below expected particle count

Running the easyCheck Procedure

2 - 7

easyCheck Procedure Troubleshooting

Problem

Possible Cause

Solutions

No event counts appear for 1. Wrong beads used. RED2 and NIR2.
2. Red laser not operating or problem with the signal.

1. Use easyCheck beads. Do not use Guava Check beads.
2. Contact EMD Millipore Technical Support.

One or more Particles/mL results falls outside the acceptance range (appear in red).

1. System is not clean.

2. Incorrect information entered in easyCheck fields.

3. Bead suspension incorrectly prepared.

1. Run Quick Clean, then rerun easyCheck Procedure. If results still fall outside range, run Guava Clean.
2. Ensure correct Bead Lot # and Expected Particles/mL are entered. Refer to easyCheck Beads vial label and information card for values.
3. Prepare fresh bead sample and rerun easyCheck Procedure. Refer to guava easyCheck Kit package insert for preparation instructions.

FSC, SSC, GRN, YLW, RED, NIR, RED2, and/or NIR2 intensity is >10% outside the acceptable range.

1. System is not clean.
2. Problem with detector or laser.

1. Run Quick Clean. If results are still outside range, run Guava Clean.
2. If problem persists, contact EMD Millipore Technical Support.

Particle counts for FSC, SSC, GRN, YLW, RED, NIR, RED2, and/or NIR2 intensity is not within 100 events of each other.

1. If FSC count is low, capillary may not be seated correctly.
2. If any of the counts is low, possible problem with detector.

1. Remove metal plate. Unscrew tubing from top of flow cell and firmly push down on top of flow cell assembly. If problem persists, contact EMD Millipore Technical Support.
2. Rerun easyCheck Procedure. If counts are still low, contact EMD Millipore Technical Support.

2 - 8 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Few events, as indicated in Particle Count section of Sample Information control panel.

1. Clogged flow cell. 2. Insufficient sample volume.

1. Perform a Backflush. Follow with Quick Clean.
2. Minimum sample volume is 100 µL for round-bottom wells and 150 µL for 0.5-mL tubes. Use 0.5-mL tubes in the tube position, as a higher volume (1 mL) is required for 1.5-mL tubes.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells and 150 µL for 0.5-mL

tubes.

Use 0.5-mL tubes in the

tube position, as a higher

volume (1 mL) is required

for 1.5-mL tubes.

3. No beads in sample.

3. Ensure correct sample is

loaded.

4. Clogged flow cell.

4. Perform a Backflush. Follow with Quick Clean.

5. Broken flow cell.

5. Remove flow cell and inspect for damage,

including chipped capillary.

Replace, if necessary.

6. Sample pump not working. 6. Run Quick Clean and watch for fluid in waste vial.

7. Laser not operational.

7. Contact EMD Millipore Technical Support.

8. Loose fitting on minstac 8. Ensure tubing connector is tubing (under metal plate). secure.

Message: The login user does NOT have read/write permission to the file GuavaCheckLog.csv in the Log folder. Contact the system administrator for assistance.

The user was not assigned access control to the system.

Contact your system administrator for user access to the software.

Running the easyCheck Procedure

2 - 9

System Shutdown
1 Run a cleaning procedure at the end of the day. See "Running Guava Clean" on page 3-4 for information.
2 Exit guavaSoft Software. Do not shut down the guava easyCyte HT System while guavaSoft Software is running.
3 To shut down the guava easyCyte HT System, press the power switch located halfway up on the right edge at the back of the instrument.
WARNING: Ensure the sample tray is loaded before you turn off the power to the
easyCyte HT System.
Quitting guavaSoft Software
1 Click the Exit button in the upper-right corner of the main menu. A confirmation dialog box appears.
2 Click Yes to exit the software.
2 - 10 guava easyCyte HT System User's Guide

CHAPTER 3 Cleaning and Maintenance

guavaSoft Software offers three cleaning cycles--Quick Clean, Clean & Rinse, and Guava Clean. Run Quick Clean as often as you like throughout an assay to quickly clean the fluid system. Run Clean & Rinse to thoroughly clean the system after an assay or before running an assay where instrument sensitivity is critical. Run Guava Clean at the end of each day to thoroughly clean the fluid system.
To clean the outside of the instrument, wipe it down with a soft cloth moistened with 70% alcohol. Follow with a cloth moistened with water.
WARNING: To avoid exposure to laser radiation or electric shock, DO NOT open the
guava easyCyte HT System or attempt to perform any internal maintenance. There are no user serviceable parts.
Running Quick Clean
Quick Clean is a short cleaning cycle that allows you to clean the fluid system during or after an assay. The Quick Clean feature is accessible from each guavaSoft Assay screen, as well as from the easyCheck screen. At the completion of an assay, the system automatically performs a Quick Clean. For the guava InCyte and ExpressPro assays, you can choose between Quick Clean or Clean & Rinse. You can also perform additional Quick Clean and Clean & Rinse cycles as often as you like during an assay.
1 Place a tube filled with deionized water in tube position w4 when you load the tray at the start of a run.
2 If you wish to perform Quick Clean using a cleaning solution other than water, you can add one of the following to another tube or well. The system will prompt you to select the tube/well. · undiluted Guava Instrument Cleaning Fluid (ICF) to clean the system, followed by water to rinse · a 10% bleach solution in Guava ICF (1 part bleach in 9 parts Guava ICF; for example, 100 µL bleach plus 900 µL Guava ICF) to clean and sanitize, followed by water to rinse
NOTE: You can perform approximately three Quick Clean cycles from a single well
and seven Quick Cleans from a 1.5-mL tube containing 1.5 mL of fluid.

Running Quick Clean

3 - 1

3 Click Quick Clean from the easyCheck screen or the guava InCyte or ExpressPro Assay screen. A message appears prompting you to select the well or tube used for the Quick Clean. The default tube for Quick Clean is position w4.
NOTE: If the system is acquiring samples, click Pause, then click Quick Clean.
4 Leave the default position w4 selected, or click to select a different well/tube. Click OK.
Tube w4 is default Quick Clean position. Click OK to select tube w4, or select a different well/tube and click OK. (NOTE: The dialog boxes that prompt you to load tubes or select a sample may have slightly different appearances, however their functionality is the same.)
5 If you ran water, you are finished. If you ran Guava ICF, either straight or diluted with bleach, click Quick Clean again to rinse, select the well/tube containing water, and click OK.
6 If you paused the run to perform the Quick Clean, click Resume.
NOTE: If you will not be using the system for 30 minutes or more, leave the instrument
on and leave guavaSoft at the current assay. After a Quick Clean, the capillary tube is left in distilled water to prevent it from drying out.
Backflushing the Fluid System
The backflush feature reverses the flow of fluid out of the flow cell. Click the Backflush button, located on the each assay screen and the easyCheck screen, when you suspect that the fluid pathway is blocked. 1 Click Backflush from the easyCheck screen or any guava assay screen.
A message appears prompting you to select the well or tube used for backflushing. The default tube for backflushing is position w1, containing 100 µL of bleach.
NOTE: If the system is acquiring samples, click Pause, then click Backflush.
3 - 2 guava easyCyte HT System User's Guide

2 Leave the default position w1 selected, or click to select a different well/tube. Click OK.
Tube w1 is default backflush position. Click OK to select tube w1, or select a different well/tube and click OK. (NOTE: The dialog boxes that prompt you to load tubes or select a sample may have slightly different appearances, however their functionality is the same.)
3 When the backflush is complete, click Quick Clean to rinse the bleach from the capillary. Follow the instructions on page 3-1 to perform a Quick Clean.
4 Click Resume if you paused the run to perform a backflush.
Running Clean & Rinse
Clean & Rinse automatically performs a series of Quick Clean cleaning cycles with one backflush to thoroughly clean the fluid system. Use Clean & Rinse when optimum system sensitivity is needed. Clean & Rinse is available from Worklist Editor Software, as well as from the guava InCyte or ExpressPro acquisition screen, allowing you to incorporate Clean & Rinse cycles into these assays. 1 Click Clean & Rinse from the guava InCyte or ExpressPro acquisition screen. You
can also select it as a cleaning option in Worklist Editor Software for these applications. A message appears prompting you to load a tube filled with DI water in position w4, a tube of 100 µL bleach in position w1, and a tube filled with Guava ICF in position 10.
Load a tube of ICF in position 10.
Load a tube of bleach in position w1. Load a tube of DI water in position w4. (NOTE: The dialog boxes that prompt you to load tubes or select a sample may have slightly different appearances, however their functionality is the same.)
2 Load a tube filled with DI water in w4, a tube with 100 µL of bleach in w1, and a tube filled with ICF in tube position 10. Click OK.
NOTE: You can perform approximately four Clean & Rinse cycles before you will need
to refill the fluid in tubes w4 and 10, and empty then refill tube w1 with bleach.

Running Clean & Rinse

3 - 3

Running Guava Clean
Run a cleaning cycle at the end of each day to thoroughly clean the fluid system and the outside of the capillary and mixer. If your instrument has not been used for a few days, you may clean it at the start of the day to thoroughly flush the fluid system. You may also clean between assays if a thorough cleaning is needed. If running samples that have high background, such as lysed whole blood, we recommend running two complete cleaning cycles to flush the system of any residual sample. 1 Click Cleaning from the guavaSoft main menu.
The Guava Clean screen appears.
2 Click Start Clean. The plate is ejected.
WARNING: Keep the area in front of the tray clear as the tray ejects.
3 Load the following tubes on the instrument: · Load seven tubes filled with DI water in positions w1, w2, w3, w4, w5, w6, and tube position 1. · Load a tube containing 100 µL of bleach in position 2, indicated by the yellow well. · Load two tubes filled with Guava ICF in tube positions 3 and 4. See the following additional notes on cleaning solution.
3 - 4 guava easyCyte HT System User's Guide

· Load a tube filled with DI water in any tube position 59 for the capillary shutdown. Then, click to select this position on the plate map.
Load six tubes of DI water in positions w1w6 and a seventh tube in position 1.
Load a tube containing 100 µL of bleach in position 2. Load two tubes of cleaning solution in positions 3 and 4.
Load one tube of DI water in any position 59 for the capillary shutdown. Then click to select this position.
(NOTE: The dialog boxes that prompt you to load tubes or select a sample may have slightly different appearances, however their functionality is the same.)
NOTES on cleaning solution:
· If you are running a cleaning cycle between assays, run undiluted Guava ICF as the cleaning solution (positions 3 and 4).
· If you are shutting down the instrument at the end of the day or you wish to sanitize the system, run a 10% bleach solution in Guava ICF (1 part 100% bleach in 9 parts Guava ICF) as the cleaning solution (positions 3 and 4).
4 After selecting the tube position for DI water for the capillary shutdown, click OK.
WARNING: If you click Cancel in the dialog box, the tray will automatically load. Keep
the area clear as the tray loads.
5 If you are finished using the instrument, click Eject Tray and dispose of the used plate and tubes. Then, shut down the capillary to keep it moist while the instrument is not in use. See "Shutting Down the Capillary" on page 3-6. The instrument shuts down with the capillary in a tube of water to minimize clogging, particularly when the instrument is used infrequently.
NOTE: If you will not be using the instrument for an extended time, perform the
capillary shutdown procedure periodically, using a fresh tube of DI water to ensure that the capillary does not dry out.
6 Click Main Menu to return to the guavaSoft Software main menu, or click Exit to close guavaSoft Software.
NOTE: Do not reuse the tubes that were previously used for the Guava Clean
procedure. After the cleaning cycle is complete, dispose of the tubes according to your local regulations.

Running Guava Clean

3 - 5

Shutting Down the Capillary
At the completion of Guava Clean, eject the tray and dispose of the used plate and tubes. Then, to keep the capillary wet when you turn off the system, use the Capillary Shutdown feature to place the capillary in a tube of water.
NOTE: If you will not be using the instrument for an extended time, perform the
capillary shutdown procedure periodically, using a fresh tube of DI water to ensure that the capillary does not dry out. 1 Click Capillary Shutdown. A dialog box appears prompting you to select the tube for the capillary shutdown position.
Select a tube position (5-9) for the capillary shutdown. Place a tube with 1.5 mL DI water in the selected position. (NOTE: The dialog boxes that prompt you to load tubes or select a sample may have slightly different appearances, however their functionality is the same.)
2 Click to select a tube position 5 through 9 at the top of the plate map. 3 Place a tube containing 1.5 mL DI water in that location and click OK.
Filling the Cleaning Solution Vial
Fill the cleaning solution vial with ICF. The solution is aspirated through the tubing in the vial. Do not allow the vial to empty. This will create air bubbles in the fluid system and require that you prime the system with water. When the vial is down to 1/4 full, fill it with ICF. One vial of ICF will allow you to perform approximately 15 cleaning cycles.
NOTE: Check the cleaning solution vial fluid level frequently to ensure it does not run
dry. If the vial runs dry air can be aspirated into the system.
3 - 6 guava easyCyte HT System User's Guide

1 Gently pull up on the vial to remove it from the bracket. The cleaning solution vial is located on the right.

cleaning solution vial
Slide cleaning solution vial out of bracket.
2 Unscrew the vial from the cap.
3 Fill the vial with ICF to just below the bottom of the cap. Do not overfill the vial.
4 Replace the vial on the cap assembly and install the vial on the easyCyte HT System.
5 Ensure the tubing that goes into the vial is still attached to the cap.
Emptying the Waste Vial
Empty the waste collection vial at the end of each day, or as needed.
WARNING: Handle all biological specimens and materials they come in contact with as
if capable of transmitting infection. Dispose of these materials using proper precautions in accordance with federal, state, and local regulations. 1 Gently pull out the vial to remove it from the bracket. The waste vial is located on the left.
2 Twist the luer-lock connector to remove the waste tubing from the vial cap.
NOTE: Fluid may seep from the waste tubing while it is disconnected from the vial. To
prevent waste fluid from dripping on the work surface, place the free end of the tubing in a small beaker or other container.
3 Unscrew the vial cap and empty the contents according to your local and state biohazardous waste disposal guidelines.
4 Rinse the waste vial with water.
5 Add approximately 10 mL of bleach to the waste vial, replace the cap, and install the vial on the guava easyCyte HT System.

Emptying the Waste Vial

3 - 7

Cleaning the Flow Cell

About the Flow Cell
The flow cell assembly consists of the shuttle, the capillary, and the minstac tubing. The shuttle houses the optical window, where the laser beam intersects the sample. When handling the flow cell assembly, grasp it towards the top of the shuttle, where the minstac tubing is attached to avoid getting fingerprints on the optics window. When installing a flow cell, ensure this tubing connection is tight to avoid fluid leaking from the top of the shuttle.
A flow cell removal/tightening tool is provided and can be used to remove the flow cell from the instrument, as well as tighten the minstac tubing.

minstac tubing
shuttle optics window
capillary

Using the Syringe Tool to Clean the Flow Cell Assembly
Use the syringe cleaning tool to clean the flow cell. When removing the flow cell, handle it with care. The capillary is fragile; avoid touching it unnecessarily. Do not force the flow cell into the receptacle. However, slight pressure may be required to properly seat the flow cell once it has been inserted into the receptacle.
WARNING: To avoid exposure to laser radiation, turn off the power to the guava
easyCyte HT System before attempting to remove the flow cell.
1 Remove the metal plate from the top of the instrument.
2 Remove the tubing from the clamp and disconnect it from the instrument.

3 - 8 guava easyCyte HT System User's Guide

3 Remove the flow cell by grasping it at the top with your fingers and pulling straight up. Do not pull up on the tubing. You can also use the flow cell removal tool to remove the flow cell. See the instructions below, depending on the type of flow cell and removal tool you have.

· Unscrew the tubing at the top of the flow cell and set it aside.
· Screw the threaded stem of the removal tool into the top of the flow cell shuttle.
· Pull the tool straight up to remove the flow cell, as shown below.
· Disconnect the removal tool, then reattach the minstac tubing to the top of the flow cell.

· Grasp the flow cell.with the removal tool by placing the clamps into the cutouts at the top of the flow cell, as shown.
· Pull the tool straight up to remove the flow cell.

notches in flow cell
4 Fill the syringe cleaning tool with water or Guava ICF. Connect the syringe to the minstac tubing on the flow cell. Ensure the fitting is tight.

5 Use a Kimwipe® to hold the flow cell at the top of the shuttle to capture fluid that may leak. Apply gentle, steady pressure to the plunger and watch as the fluid flows from the tip of the capillary. · Make sure the fluid stream is straight. If it is not straight, the tip of the flow cell may be chipped or there may be a partial clog in the flow cell. · Check the capillary to ensure there are no leaks along the length of it. · Make sure fluid is not leaking where the tubing is connected at the top of the flow cell.
6 Unscrew the syringe from the minstac tubing. Leave the minstac tubing attached to the flow cell.

Cleaning the Flow Cell

3 - 9

7 If you noticed leaks at the tubing connection and you have the tool shown at the right, use the tool to tighten the tubing connection. A tight connection ensures that fluid will not leak from the top of the flow cell. · Point the tool's threaded stem up (away from the flow cell) and insert the tubing connector into clamp end of the removal tool. · Squeeze the handles of the tool to secure the flow cell, while tightening. If you don't have the tool shown at the right, use your fingers to hand-tighten the tubing connection.
8 Use a Kimwipe to dry the end of the tubing that you disconnected from the syringe.
Dry connector before reinstalling the flow cell.

clamped end of tool over tubing connector

9 If the flow cell is clean and intact, reinstall it. If it is damaged or not functioning properly, discard it and replace it with a new flow cell. Install the clean (or new) flow cell by correctly positioning it vertically above the instrument and carefully lowering it into the receptacle. The flow cell fits only one way into the receptacle. Avoid bumping the capillary as you install it. Use your fingers to push down on the top of the flow cell on either side of the tubing until the flow cell clicks into place. Do not press down on the tubing at the top of the shuttle.

3 - 10 guava easyCyte HT System User's Guide

10 Connect the tubing to the instrument. Make sure the tubing is screwed on tightly by hand tightening only. Then insert the tubing into the clamp.
11 Ensure that the cleaning solution vial is full, then run Quick Clean to prime the system. If starting the instrument after it has been shut down, run Guava Clean to prime.
12 To ensure that the flow cell was correctly installed, run the easyCheck procedure. While the first replicate is being acquired, watch for bubbles in the minstac tubing. If bubbles or leaks are visible, the tubing may not be adequately tightened.
Replacing the Flow Cell
You can replace the flow cell if it becomes damaged or clogged so severely that backflushing the system, running Guava Clean, and using the syringe tool do not fix the problem. When replacing the new flow cell, handle it with care. The capillary is fragile; avoid touching it unnecessarily. Do not force the flow cell into the receptacle.
WARNING: To avoid exposure to laser radiation, turn off the power to the guava
easyCyte HT System before attempting to remove the flow cell. 1 Remove the metal plate from the top of the instrument. 2 Remove the minstac tubing from the clamp and disconnect it from the instrument.
Replacing the Flow Cell 3 - 11

· Grasp the flow cell with the removal tool by placing the clamps into the cutouts at the top of the flow cell, as shown.
· Pull the tool straight up to remove the flow cell.

notches in flow cell
4 Install a new flow cell by correctly positioning it above the instrument and carefully lowering it into the receptacle. The flow cell fits only one way into the receptacle. Keep the flow cell completely vertical and avoid bumping the capillary against the instrument or sides of the receptacle. Use your fingers to press down on the top of the flow cell on either side of the tubing until the flow cell clicks into place. Do not press down on the tubing at the top of the shuttle.

3 - 12 guava easyCyte HT System User's Guide

5 Connect the tubing to the instrument, then insert the tubing into the clamp.
6 Ensure that the cleaning solution vial is full, then run Quick Clean to prime the system. If starting the instrument after it has been shut down, run Guava Clean to prime.
7 To ensure that the flow cell was correctly installed, run the easyCheck procedure. While the first replicate is being acquired, watch for bubbles in the minstac tubing. If bubbles or leaks are visible, the tubing may not be adequately tightened.
Replacing the Fuses
The AC fuse is located on the rear panel to the right of the AC power cord connector.
WARNING: Turn off the main power switch at the back of the instrument and
disconnect the power cord.
fuse holder main power switch laptop power connector AC power cord connector
1 Remove the fuse holder cover using a small screwdriver and pivot to expose the fuse carrier.
2 Pull out the fuse carrier.
Replacing the Fuses 3 - 13

3 Carefully remove the fuses and replace with new fuses. Use the same type and rating as listed in the Specifications section.
NOTE: If you have a 110 V supply you will need to replace a single fuse. If you have
a 220 V supply you will need to replace two fuses.
4 Insert the fuse carrier back into the fuse holder. The fuses will face the inside of the fuse holder.
5 Replace the fuse holder cover.
6 Reconnect the power cord and turn on the main power switch.
Returning the System for Service
Contact EMD Millipore Technical Support for the Decontamination Form and instructions. The form must be returned via e-mail before you can return the instrument. A return authorization (RMA) number will be issued to you. Write this number on the outside of the shipping box. If you did not save the original shipping box, you can order one. Contact Technical Support for information. 1 Perform the Guava Clean procedure (see "Running Guava Clean" on page 3-4).
2 Power off the laptop and instrument.
3 Disconnect the laptop, instrument, and power conditioner.
4 Pack the laptop and power cord in the laptop box.
5 Pack the power conditioner in a box.
6 Pack the USB cable, extension cable, and power cord in the accessory box.
7 Remove the flow cell from instrument. Use the syringe cleaning tool to flush it with water, and then flush with air and store in capillary box. For information on cleaning the capillary, see "Using the Syringe Tool to Clean the Flow Cell Assembly" on page 3-8.
8 Put the shipping restraint on instrument.
9 Tape the capillary hatch closed.
10 Tape the tray door closed.
11 Place the instrument in the shipping bag and secure the bag.
12 Place the instrument in the shipping box.
13 Place the power conditioner box and laptop box to the left of the instrument.
14 Place the blue shipping foam over instrument. Place the accessory box on top.
15 Place the cover on the box and insert the white locks into the holes.
3 - 14 guava easyCyte HT System User's Guide

CHAPTER 4 guava ViaCount Assay
Introduction
The guava ViaCount Assay is a rapid and reliable alternative to trypan blue exclusion for determining cell count and viability. The ViaCount Reagent differentially stains viable and non-viable cells based on their permeability to the DNA-binding dyes in the reagent, allowing the quantitative assessment of viable and non-viable nucleated cells present in a suspension. The system counts the stained nucleated events, then uses the forward scatter (FSC) properties to distinguish free nuclei and cellular debris from cells to determine an accurate cell count. To run the assay, stain a sample with the Guava ViaCount Flex Reagent according to the instructions in the Guava PCATM-96 ViaCount Flex Reagent package insert. Then, acquire the stained sample on the guava easyCyte HT System using guavaSoft Software. You may select the EasyFit Analysis feature to perform data analysis. This feature uses a computer-assisted population analysis method to determine the viable cells and nonviable (dead/apoptotic) cells. The EasyFit Analysis algorithm allows better discrimination of live cells, dead cells, and debris when those populations show overlap in one or more parameters because the EasyFit feature performs analysis in three dimensions. In addition, EasyFit Analysis is much less affected by the presence of contaminating debris, and more accurate results can be obtained. You may also choose to perform manual data analysis by setting a viability marker, as well as an optional apoptosis marker to divide cells into live, apoptotic, and dead fractions. The software then displays the results based on your marker setting(s). Results include a viable cell count and total cell count (both in cells/mL) and the percent viability of the sample. If the apoptosis marker is enabled, results include the count and percentage of apoptotic and dead cells, as well as viable cells. Additionally, the software calculates the number of total, viable, apoptotic (where applicable), and dead cells in the original sample, based on the dilution factor and original sample volume that you entered in WorkEdit Software prior to acquisition. The ViaCount data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you selected to save FCS 2.0 files. In addition to the saved data file, all results, instrument settings, and the acquisition summary information for a data set are exported to a spreadsheet file.
Introduction 4 - 1

Running the guava ViaCount Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "ViaCount Software Module Control Panels" on page 4-16. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information. 2 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click ViaCount from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or 0.5-mL tubes. Refer to the Guava PCA-96 ViaCount Flex Reagent package insert for information.
5 Click Start Worklist. The sample tray ejects. A dialog box appears prompting you to load samples.
4 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

6 Place the microplate, any sample tubes (0.5-mL microcentrifuge tubes), and the cleaning tubes in the tray. Make sure well A1 of the plate is in the top-right corner. Load the following 1.5-mL microcentrifuge tubes in these positions:
· Load tubes containing water in positions w2, w4, and w5 (for Quick Clean and washing the capillary and mixer).
IMPORTANT: Always load a tube filled with water in position w4 (for Quick Clean).
· Load empty tubes in positions w3 and w6 (for spinning/drying the mixer).
· Load a tube containing 100 µL of bleach in position w1 (for performing a backflush).

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

7 Click OK in the Load Samples dialog box after you are finished loading samples and cleaning tubes to load the sample tray.
WARNING: Keep the area clear as the tray loads.
WARNING: Always use the Eject Tray button in guavaSoft Software to open the door.
Click Pause first, if necessary. Never open the door with your fingers.

Running the guava ViaCount Assay 4 - 3

8 A dialog box appears prompting you to select the worklist file. Select the worklist file for the current run and click Open.
Select a worklist file and click Open.
9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the easyCyte HT System.
NOTE: Whether you choose to analyze samples manually or use EasyFit Analysis,
you must perform the adjust settings step.
4 - 4 guava easyCyte HT System User's Guide

11 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends running a representative stained sample. Click to select the well/tube used to adjust settings, then click OK.

The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data.

dead cells
live cells debris

Adjust FSC threshold.
Separate nucleated cells from debris.
Separate viable cells from nonviable.

12 Check the Cells/µL value in the Sample Information control panel and ensure that it is between 10 and 500 cells/µL.
NOTE: If the value is greater than 500, click Abort, then click Eject Tray. Dilute the
sample with ViaCount Flex Reagent to lower the concentration to <500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings.

Running the guava ViaCount Assay 4 - 5

13 Fine tune the settings only if necessary. You can make the following adjustments once events start to appear on the screen:
· Set the Refresh Rate to the maximum number of events you want to display.
· Use the FSC Gain setting to reduce or amplify the FSC signal so that the cells are visible and on scale. For optimal EasyFit Analysis, position the live cells at 10e3 (as shown on page 4-5 in the dot plot on the left).
· Adjust the voltages (using the PM1 and PM2 sliders or the arrow keys on the keyboard) so that the viable cells are positioned in the upper left and the dead cells are in the upper right of the Viability (PM1) vs Nucleated Cells (PM2) plot. For optimal EasyFit Analysis, position the live cells between 10e0 and 10e1 on the Viability (PM1) axis and between 10e2 and 10e3 on the Nucleated Cells (PM2) axis (as shown on page 4-5 in the dot plot on the right). All dead cells should be above 10e2 but below saturation (4000 on the PM2 axis). Adjust the PMTs by starting from a lower voltage setting and gradually increasing the voltage.
· Adjust the horizontal line (PM2 threshold) on the Viability (PM1) vs Nucleated Cells (PM2) dot plot to separate the viable cells in the upper left from the debris in the lower left. Set the line approximately 23 mm below the live cell population (as shown below in the center plot). Be sure to exclude all debris.

debris

live cells

dead

cells

PM2 threshold set too low--too much debris included

PM2 threshold set correctly

PM2 threshold set too high--live cells eliminated

· Adjust the vertical line (viability discriminator) on the Viability (PM1) vs Nucleated Cells (PM2) dot plot to separate the viable cells in the upper left from the nonviable cells in the upper right. You can adjust the angle of the line. Refer to step 5 on page 4-12 for information.
· To adjust the FSC threshold, click and drag the vertical marker up or down the FSC axis of the FSC vs Viability (PM1) dot plot until the desired amount of debris is eliminated below the marker.
NOTE: It is important to properly adjust the FSC threshold even if you plan to analyze
using the EasyFit feature. Although the FSC threshold is not used during EasyFit Analysis, the FSC threshold is used as a counting gate to determine the total number of events acquired. If you set the threshold too low, a large number of non-cellular events (debris) will be acquired rather than events of interest--live and dead cells.

4 - 6 guava easyCyte HT System User's Guide

debris

dead cells
live cells

FSC threshold set too low--too much debris included

FSC threshold set correctly

FSC threshold set too high--dead cells eliminated

14 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples are on scale and appropriately positioned by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s).
15 Click Resume. The system acquires the first sample and displays the results. The tube/well currently being acquired is highlighted in red.

sample results

Manual analysis following sample acquisition
If you selected EasyFit, the software groups the events into three uniquely colored populations, corresponding to viable cells, dead/apoptotic cells, and debris. You cannot change to manual analysis during acquisition. However, after the data have been
Running the guava ViaCount Assay 4 - 7

collected, you can change to manual analysis later from the Analysis screen (see "guava ViaCount Analysis" on page 4-9).
EasyFit Analysis following sample acquisition
ACQUISITION NOTES
· If the sample is too dilute or too concentrated, a message appears indicating that the counting accuracy may be compromised. Refer to the Guava PCA-96 ViaCount Flex Reagent package insert for the recommended cell concentration and proper dilution instructions.
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 2 minutes.
16 If you did not select EasyFit and wish to adjust the viability marker or set an apoptosis marker for any sample, click Pause at any time during the run. The system will pause when the acquisition is complete. Once the system is paused, make the necessary adjustments, then click Resume. The remaining samples are automatically acquired. Refer to "Manual Analysis" on page 4-12 for details on adjusting these markers. If you selected Enable EasyFit, you cannot make any further analysis adjustments at this point. Whether you selected the EasyFit feature or not, you can adjust the FSC threshold, viability marker, and PM2 threshold from the Adjust Settings screen by clicking Pause, then Settings, then Adjust Settings.
The system automatically performs a Quick Clean at the end of the assay.
4 - 8 guava easyCyte HT System User's Guide

guava ViaCount Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 format or a spreadsheet file. You can save changes made to the sample ID, dilution factor, original volume, FSC threshold, or markers within Analysis by overwriting the existing file or saving a new file. You can also change between the EasyFit and manual methods of analysis, using either EasyFit Analysis or manual analysis for individual samples.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis method (EasyFit vs manual) or analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. 1 Click ViaCount from the main menu. 2 Click Go to Analysis from the Acquisition screen.
guava ViaCount Analysis 4 - 9

3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. The marker settings appear as they were when the sample was acquired. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
Analysis Sample List control panel
EasyFit Analysis
You may select Enable EasyFit and allow the software to calculate the results based on its own internal analysis method. Using a 3-dimensional software algorithm, EasyFit groups the events into three populations--viable cells, dead/apoptotic cells, and debris. You may switch between EasyFit and manual analysis to see which method may be more appropriate for the given data. When EasyFit Analysis is selected, the FSC threshold and viability marker appear in gray for reference, but they cannot be adjusted. EasyFit Analysis uses its own method of grouping (clustering) data into populations. The threshold and viability marker remain on the plots so that you can compare the EasyFit
4 - 10 guava easyCyte HT System User's Guide

results with the manual results, which are also displayed. When the EasyFit feature is disabled, you may, if necessary, adjust the FSC threshold and viability marker to appropriately discriminate debris from cells, as well as live cells from dead/apoptotic cells.
NOTE: The apoptosis gate is not available for EasyFit Analysis. Apoptotic cells are
included in the EasyFit dead cell population. If you wish to calculate individual results for dead and apoptotic cells, use the manual analysis method and set an apoptosis gate. To hide or show the events within specific populations, use the check boxes to the left of the Viability (PM1) vs Nucleated Cell (PM2) dot plot. The selection you make applies to the data while you are viewing it. The selections are not saved to the file.
NOTE: Before routinely using EasyFit for your analysis, you should validate the
EasyFit Analysis method for the cells you are testing by running multiple experiments and comparing the EasyFit results to another cell counting and viability test method, such as manual ViaCount analysis. In some cases EasyFit Analysis will provide more accurate results because it uses 3-dimensional gating to identify live and dead/ apoptotic cells. However, even after validating EasyFit Analysis, compare the EasyFit results to the results obtained with the manual method, and check the plots for each sample to ensure the analysis is correct.
Enable EasyFit EasyFit results along with manual results
Show/hide events
The manual results--results obtained from the FSC threshold and viability marker, which you left at their defaults or modified--appear next to the EasyFit results. Proceed to step 8 on page 4-13 to continue analyzing sample data.
NOTE: For examples of when to use EasyFit versus manual analysis, refer to
Appendix A: EasyFit Case Study Examples.
guava ViaCount Analysis 4 - 11

Manual Analysis
To analyze manually, remove the check mark from the Enable EasyFit check box.

4 If necessary, you may adjust the FSC threshold

during analysis. During acquisition, the FSC

threshold is used as a counting gate--any event

that passes the threshold is included in the

Events to Acquire. After acquisition is complete, if

you move the threshold, the total cell count will FSC change. However, by moving the threshold you threshold

may be able to correct for debris that was

included or cellular events that were not included

during acquisition. You cannot adjust the FSC

threshold if EasyFit is enabled.

Adjust FSC threshold, if necessary, when analyzing manually.

5 If necessary, you may adjust the location and

angle of the red viability marker to more precisely discriminate viable from non-viable

cells (or to separate dead cells from live and apoptotic cells).

NOTE: If you are using EasyFit Analysis, viable cells versus dead and apoptotic cells
are determined by the software. The viability marker will be ignored.

· To adjust the angle of the marker, click and drag the top of the line to tilt it to the desired location.

· To move the entire marker to the left or right, click and drag the bottom of the line to shift it to the desired location. You may also set the marker by entering the coordinates and angle in the Viability Marker fields and clicking Set.

Click and drag top of line to adjust angle.

Click and drag bottom of line to move location.

Viability marker adjusted to separate viable cells (left) from apoptotic and dead cells (right).

6 To set the apoptosis marker, click Enable Apoptosis Gate. The apoptosis marker is available only during manual analysis. It is not available when EasyFit is enabled.

4 - 12 guava easyCyte HT System User's Guide

7 To set the purple apoptosis marker, follow the same instructions outlined in step 5 for setting the Viability Marker.
NOTE: Make sure the apoptosis marker (purple) is to the right of the viability marker
(red) and that the markers are not intersecting.
Click to enable Apoptosis marker.
Click and drag top of line to adjust angle. Click and drag bottom of line to move location.
Viability marker (red) separating viable cells (left) from apoptotic cells (right). Apoptosis marker (purple) separating apoptotic cells (left) from dead cells (right).
8 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
9 You can apply markers settings or EasyFit Analysis from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
10 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting files. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
11 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.
guava ViaCount Analysis 4 - 13

guava ViaCount Results
ViaCount results appear immediately after the acquisition of the sample is complete.The results displayed vary depending on whether the EasyFit or manual method of analysis was used and if the apoptosis marker was set. Following are examples of results from each type of analysis.
Results include statistics for viable and total cells: · Number of viable cells per mL · Percentage of viable cells · Total number cells per mL · Number of viable cells in original sample · Total number of cells in original sample The dilution factor and original volume that you entered are displayed.

ViaCount manual results for viability marker

Results include statistics for viable, apoptotic, dead, and total cells: · Number of cells per mL · Percentage of cells · Number of cells in original sample
The dilution factor and original volume that you entered are displayed.

ViaCount manual results for viability and apoptosis markers

ViaCount EasyFit results (manual results also included)

EasyFit results appear along side the manual results. Results include: · Number of viable and dead cells in sample (count) · Percentage of viable and dead cells in sample (count) · Number of viable cells per mL · Total number of cells per mL · Number of viable cells in original sample · Total number of cells in original sample · Debris index (The debris index is a measure of debris.
The higher the index the more debris in the sample.)
#------o---f---t--o---t--a---l#---c--o-e---f-l-l-ds---e--+--b---r#--i-s--o---ef---v-d--e-e---nb---t-r-s-i-s-----e---v---e---n----t-s-- × 100

4 - 14 guava easyCyte HT System User's Guide

Exporting ViaCount Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically.
1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.
NOTE: The guava Excel Utility allows you to extract the cell concentration and percent
viability information from the CSV file and save it to an Excel spreadsheet file. For information on using the program, refer to "Guava Excel Utility" on page 4-21.
Exporting ViaCount Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application.
1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0. You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print.
1 Select any sample from the Analyze Sample List and click Print. The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

guava ViaCount Analysis 4 - 15

ViaCount Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.
Sample Information
Original Sample Data · Displays the sample #. This number defaults to 1 and advances
at the completion of sample acquisition. · Displays the Sample ID for the individual sample. · Displays the number of events to acquire. The default is 1000. · Displays the dilution factor and the original sample volume. The
default values are 20 and 10, respectively. · The progress bar provides an estimate of the target event count
during acquisition. Cell Count Displays the total number of cells detected by the FSC and PM2 detectors, as well as the cell count and the number of dead, nucleated, and viable cells in the volume of sample acquired. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.
4 - 16 guava easyCyte HT System User's Guide

Unit Control

Detection Displays laser status and the PM1 and PM2 voltage settings and the FSC gain. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the offset and threshold settings for each parameter.
NOTE: You can edit the Threshold units during the adjust
settings step by typing a value in the field. Do not change the voltages from this panel. Use the sliders to adjust the PM1 and PM2 voltages. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava ViaCount Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save ViaCount spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save ViaCount FCS file to another directory or give it a new name.

ViaCount Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

guava ViaCount Assay Troubleshooting 4 - 17

Problem

Possible Cause

Solutions

Message: Less than 10 particles/µL. Sample is too dilute. Accuracy may be compromised.

1. Sample concentration is too 1. Recommended

low.

concentration range for

accurate counting is 1 x 104 to 5 x 105 cells/mL.

Refer to Guava PCA-96

ViaCount Flex Reagent

package insert for proper

dilution instructions.

2. Clogged flow cell.

2. Perform a Backflush.

Follow with Quick Clean.

3. Settings were not adjusted 3. Adjust Settings and make

correctly.

necessary changes.

Message:

Sample is too concentrated.

Please dilute or accuracy

may be compromised.

Recommended
concentration range for accurate counting is 1 x 104 to 5 x 105 cells/mL. Refer to
Guava PCA-96 ViaCount
Flex Reagent package insert
for proper dilution
instructions.

Few events, as indicated in Particle Count section of Sample Information control panel.

1. Clogged flow cell. 2. Insufficient sample volume.
3. Cells in suspension have settled.
4. Cells were lysed during staining.
5. Sample was not properly stained.

1. Perform a Backflush. Follow with Quick Clean.
2. Minimum sample volume is 100 µL for round-bottom wells, 150 µL for 0.5-mL tubes, and 900 µL for 1.5-mL tubes.
3. Ensure sample mixing option was selected in WorkEdit Software.
4. Check sample. If necessary, restain sample from original suspension.
5. Check buffers used to process cells. Check expiration date of reagent.

4 - 18 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Events appear off scale in dot plots.

FSC gain or PM1 and /or PM2 Adjust gain setting or voltage

voltages set incorrectly, or settings so positive

samples staining brightly.

populations appear on scale.

Viability is significantly lower 1. Sample was not mixed

1. Ensure sample mixing

than expected.

properly before acquisition. option was selected in

WorkEdit Software.

2. Residual bleach in flow cell. 2. Run Quick Clean. Restain

fresh cell sample.

3. Buffer used is non-isotonic 3. Check osmolarity and pH.

or pH is out of physiological pH should be 7.27.4.

range.

4. Cells are fragile and

4. Resuspend cells in medium

stressed by preparation

containing 1020% FBS for

procedure.

30 min with frequent, gentle

agitation. Restain.

guava ViaCount Assay Troubleshooting 4 - 19

Problem

Possible Cause

Solutions

Cell count is significantly different than expected.

1. Dilution factor or original 1. Ensure dilution factor and

volume entered incorrectly. original volume are correct.

2. Sample was not mixed

2. Ensure sample mixing

properly before acquisition. option was selected in

WorkEdit Software.

3. Adherent cells were not 3. Check culture vessel to

adequately removed from ensure cells were

culture surface.

removed. Repeat

procedure to release cells

if necessary.

4. Sample was not stained 4. Ensure reagent is not

completely.

expired or was not

exposed to excessive light.

Ensure sufficient amount of

ViaCount Flex Reagent

was used.

5. Sample dilution factor is too 5. Use at least a 1:10 of

low.

sample to Viacount

reagent, or use Viacount

Flex CS Reagent (Catalog

No. 4500-0110).

6. Clogged flow cell.

6. Perform a Backflush.

Follow with Quick Clean.

7. Cells are aggregated.

7. Prepare uniform suspension. Use ViaCount

CDR to disaggregate cells.

8. Instrument settings not optimal.

8. Adjust settings so positive populations appear on scale and debris is below

threshold.

9. Incorrect sample tubes or plates used.

9. See Order Information for list of supported tubes and plates.

guava Excel Utility will not start Microsoft Excel when you try to open a CSV file

1. File is not a ViaCount file or 1. Excel Utility can be used

it was created by a version only for ViaCount files

of CytoSoft Software prior created in CytoSoft

to version 2.0.

Software, version 2.0 or

later.

2. Templates folder is not

2. Be sure Templates folder

located in same directory

and executable are in

as utility program.

same folder.

4 - 20 guava easyCyte HT System User's Guide

Guava Excel Utility
The Guava Excel Utility Program can be used to extract pertinent analysis information (cell concentration, percent viability, dilution factor, and original volume) from the CSV file and create an Excel spreadsheet file. The information is organized in the following four worksheets of the Excel workbook:
· manual analysis summary sheet · EasyFit Analysis summary sheet (If EasyFit was not enabled, "--" appears in the
fields under the EasyFit columns.) · manual analysis sheet (a subset of relevant information found in the CSV) · data sheet (contains the same information found in the CSV file) The utility program can be used by all guavaSoft Software users including administrators, supervisors, and operators. You may use the program to open CSV files created in CytoSoft Software, version 2.0 and later.
NOTE: The utility cannot be used if the apoptosis gate was enabled.
To open a file with the utility program, you can either use the drag-and-drop method or start the program.
NOTE: If a dialog box appears indicating that the document contains macros, select
the Enable Macros option.
Drag and Drop
1 Locate GuavaExcelUtil.exe icon. It is located in the C:\Program Files\Millipore\\guavaSoft\GuavaExcelUtil directory along with a Templates folder that the program uses.
2 Drag and drop a CSV file onto the utility icon. The utility program starts Microsoft Excel and creates a workbook with the appropriate information. The Excel file is saved automatically. If you make changes to the file, you must save the changes. The file name assigned to the Excel file is the same name as the CSV file but with the extension .xls. The original CSV file is unchanged.
3 Excel automatically write protects the summary sheet. To disable the protection, select Protection from the Tools menu in the Excel menu bar. Then choose Unprotect Sheet from the list of options.
NOTE: If you wish to place a copy of the Guava Excel Utility Program
on the desktop, you must also place a copy of the Templates folder on the desktop with the executable.
Guava Excel Utility 4 - 21

Open the Utility Program
1 Locate GuavaExcelUtil.exe icon (or shortcut) and double-click to start the program. 2 Choose a CSV file from the file dialog box.
The utility program starts Microsoft Excel and creates a workbook with the appropriate information. The file name assigned to the Excel file is the same name as the CSV file but with the extension .xls. The original CSV file is unchanged. 3 Excel automatically write protects the summary sheet. To disable the protection, select Protection from the Tools menu in the Excel menu bar. Then choose Unprotect Sheet from the list of options.
4 - 22 guava easyCyte HT System User's Guide

CHAPTER 5 guava ExpressPlus Assay
Introduction
The guava ExpressPlus Assay allows you to acquire and analyze up to three fluorescence parameters in combination with forward scatter (FSC) and side scatter (SSC), provided as an optional parameter, to identify cells with specific phenotypic markers or specific properties. The software provides absolute cell counts and allows you the flexibility to stain samples with the guava Express® Reagents, your own fluorochrome-conjugated antibody reagents, DNA intercalating dyes, or other green, yellow, and/or red fluorescent reagents. The guava ExpressPlus Assay can be used for any one-, two-, or three-color assay including:
· protein expression or other cell-surface marker experiments · screening and analyzing cells expressing Green Fluorescent Protein (GFP) The Green parameter can be used for FITC, GFP, or Alexa Fluor 488. The Yellow parameter has been optimally configured for use for phycoerythrin (PE)-based reagents, although fluorochromes with comparable emission spectra, such as propidium iodide (PI), TRITC, DS Red, sulforhodamine, CyTM3, and Alexa Fluor® 532 can also be used. The Red parameter can be used to detect PE-Cy5, PerCP, 7-AAD, and PI. Refer to Specifications for the guava easyCyte HT System fluorescence detection range.
To run the guava ExpressPlus Assay, stain samples using an appropriate fluorochrome combination for up to three fluorescence parameters. Acquire the samples on the guava easyCyte HT System using guavaSoft Software. The data are displayed in three plots, which can be set up to show histograms or dot plots with any parameter combination (FSC, SSC, if available, GRN, YLW, and RED). You may set up to two gates to select a specific subpopulation(s) for analysis, then choose the gate(s) for which you want to display statistics for the remaining two plots.
Statistics (histogram and dot plot) include the cell count, cells/mL, mean signal intensity, and %CV (for histogram data) for the data within the entire plot and the subset of data within the markers/gate. Additionally, the data are expressed as a percentage of the total data within the plot (whether gated from the dot plot or histogram), and as a percentage of data within the gate.
The guava ExpressPlus data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you
Introduction 5 - 1

selected to save FCS 2.0 files. In addition to the saved data file, all results, instrument settings, and the acquisition summary information are exported to a spreadsheet file.
Running the guava ExpressPlus Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "guava ExpressPlus Software Module Control Panels" on page 5-19. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information. 2 Open guavaSoft Software by double-clicking the guavaSoft 2.7 icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click ExpressPlus from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 5 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or 0.5-mL tubes. 5 Click Start Worklist on the Guava ExpressPlus screen.
The sample tray ejects. A dialog box appears prompting you to load samples.
5 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

Running the guava ExpressPlus Assay 5 - 3

8 A dialog box appears prompting you to select the worklist file. Select the worklist file for the current run and click Open.
Select worklist file and click Open.
9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
5 - 4 guava easyCyte HT System User's Guide

11 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends using a stained negative or isotype control sample for the initial adjustments. Click to select the well/tube used to adjust settings, then click OK.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data.
12 Check the Cells/µL value in the Sample Information control panel and ensure that it is less than or equal to 500 (for medium flow), less than or equal to 800 (for low flow), or less than or equal to 1200 (for very low flow). If your sample is heterogeneous in cell size or contains no cells that would stain with more than one fluorochrome, consider using cell concentrations below these default limits to minimize the number of coincident events. EMD Millipore recommends cell concentrations of 200 cells/µL or lower.
NOTE: If the value is greater than the high limit for the corresponding flow rate, click
Abort, then click Eject Tray. Dilute the sample with staining buffer or fixative solution to lower the concentration. Click Load Tray, then Settings, then Adjust or Retrieve Settings.
13 If you need to fine tune the settings, you can make the following adjustments once events start to appear on the screen:
NOTE: Click Show Histogram/Show DotPlot above
each plot to display the type of plot you want. Then, right-click the axis label(s) and select the appropriate label from the pop-up menu. You can choose linear and log scale for each parameter. If your easyCyte HT System is not equipped with the SSC parameter, SSC will not be available. · Set the Refresh Rate to the maximum number of events you want to display. · Set the Flow Rate to Very Low (0.12), Low (0.24 µL/s), or Medium (0.59 µL/s). The recommended flow rate is Medium.
NOTE: If you change the flow rate during the adjust settings step, EMD Millipore
recommends that you repeat the adjust settings step at the new flow rate to ensure that the markers and threshold are still set correctly. · Use the FSC Gain settings to reduce or amplify the FSC signal so that the cells are visible and on scale. Use the drop-down menu to change the FSC signal by a factor of 2. Use the FSC slider to change the FSC signal by steps of 1% between two
Running the guava ExpressPlus Assay 5 - 5

coarse gain levels. If the slider is set to 100% (min), the gain is equal to the value appearing in the drop-down box. If the slider is set to 200% (max), the gain is 2 times the value appearing in the drop-down box. · Adjust the voltages (using the SSC, GRN, YLW, and/or RED sliders, or the arrow keys on the keyboard) so that the negative population is positioned in the lower-left corner of the fluorescence plot and the cells are evenly distributed between 10e0 and 10e1. Adjust the PMTs by starting from a lower voltage setting and gradually increasing the voltage. · Select the threshold parameter (FSC, SSC, GRN, YLW, or RED) from the drop-down menu in the Sample Information control panel. · To adjust the threshold, click and drag the threshold marker (dotted red line) up or down the axis of the dot plot displaying the threshold parameter until the desired amount of debris or other unwanted events are eliminated below the threshold. You can also enter a numerical value in the Threshold Value text box in the Sample Information control panel, then click Set Threshold.
NOTE: When setting the threshold, place it at least 2 to 3 mm to the left of the cells of
interest to ensure that you are not excluding cells. Any debris that gets acquired can be excluded during analysis with the optional dot plot gate.
Click to change plot type.
Right-click to change axis label.
· To adjust compensation, click Next Step, Settings, Adjust Settings, then select the location of a positive control sample. You may want to adjust each compensation setting individually using single-stained controls.
NOTE: You must check the compensation for each fluorochrome combination you
are using. For example, if using FITC and PE fluorochromes, which correspond to the GRN and YLW parameters, respectively, ensure that YLW%GRN and GRN%YLW compensation settings are correctly adjusted (see Figures 1 and 2 below for examples). If using PE-Cy5 as well, which corresponds to the RED
5 - 6 guava easyCyte HT System User's Guide

parameter, ensure that the YLW%RED and RED%YLW compensation settings are correctly adjusted (see Figures 3 and 4). You may also need to change the plot parameters to display RED vs GRN and adjust RED%GRN and GRN%RED. Some fluorochromes require very little compensation because they have little overlap, such as PE into the GRN parameter (GRN%YLW) [see Figures 1a and 1b]; whereas others require much more compensation because they have more overlap, such as FITC into the YLW parameter (YLW%GRN) [see Figures 2a and 2b]. Compensation settings are correct when the edge of the stained population touches the axis, as shown below. Avoid having too many cells touching the axis (overcompensated) or the population too far from the axis (undercompensated).

Figure 1a

Figure 1b

Figure 2a

Figure 2b

GRN%YLW uncompensated (Fig 1a) and compensated (Fig 1b) YLW%GRN uncompensated (Fig 2a) and compensated (Fig 2b)

Figure 3a

Figure 3b

Figure 4a

Figure 4b

YLW%RED uncompensated (Fig 3a) and compensated (Fig 3b) RED%YLW uncompensated (Fig 4a) and compensated (Fig 4b)
NOTE: If you adjust the compensation with single-color samples, check the
compensation settings again with a sample stained with all fluorochromes, and finetune, if necessary.
NOTE: If you acquire samples with a new fluorochrome combination or the same
fluorochrome combination conjugated to different antibodies, you must ensure that the compensation is set correctly for the new samples.
14 You may set gates and markers prior to acquiring the samples. Refer to "Dot Plot Gate" on page 5-11, "Histogram Gate" on page 5-12, and "Setting Markers" on page 5-13 for information. If you wish to apply a count gate, select the gate from Count Gate drop-down menu in the Sample Information control panel, then set the region in the appropriate plot. You can select the count gate from the Adjust Settings screen only.
NOTE: Gates can only be the rectangular region, elliptical region, or histogram marker
in Plot 1, or the rectangular region, elliptical region, or histogram marker 1 in Plots 2 and 3. You cannot use quadrant markers or the second or third histogram marker in Plots 2 or 3. If you select a count gate on a plot that does not have a valid gate
Running the guava ExpressPlus Assay 5 - 7

enabled, when you exit the Adjust Settings screen, the count gate will automatically revert to All Events. 15 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples (such as another positive control) are on scale, appropriately positioned, and compensated, by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s). 16 Click Resume. The system acquires the first sample and automatically displays the results. The tube/ well currently being acquired is highlighted in red.
ACQUISITION NOTES
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 3.5 minutes (medium flow rate), 7 minutes (low flow rate), or 10 minutes (very low flow rate).
The system automatically performs a Quick Clean at the end of the assay.
5 - 8 guava easyCyte HT System User's Guide

guava ExpressPlus Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 files or a spreadsheet file. You can save changes made to the sample ID, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. This version of the ExpressPlus Software Module within guavaSoft 2.7 Software allows you to open and analyze the old format of guava ExpressPlus files (*.GXP.FCS). Remember to select All FCS 3.0 files from the Files of type text box. A dialog box appears prompting you to convert the file.
When you click Yes to convert the file, a copy of the converted data is saved as an .EP5 file with the same file name as the original .GXP file.
NOTE: A spreadsheet file (.CSV) corresponding to the converted file does not get
saved automatically. If you do not make changes to the converted file, you must click Export to Spreadsheet if you want to generate a spreadsheet file. 1 Click ExpressPlus from the main menu.
guava ExpressPlus Analysis 5 - 9

2 Click Go to Analysis from the Acquisition screen.
3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. The marker settings appear as they were when the sample was acquired. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
NOTE: If the number of events acquired per sample is greater than 15,000, it will take
several seconds to see the results appear on the analysis screen.
5 - 10 guava easyCyte HT System User's Guide

Ensure that the gates and markers are set appropriately for negative and positive controls. Adjust if necessary.
Three-color data--sample stained with CD8-FITC, CD4-PE, and CD3-PE-Cy5
Gates
You can set up to two analysis gates--one gate in Plot 1 and a second gate in either Plot 2 or Plot 3. Then, while generating statistics for certain subpopulations, you can apply one or both gates to the data displayed in Plots 2 and 3. You can also choose to analyze without using gates.
Dot Plot Gate
The dot plot gate allows you to select a specific population for analysis, while viewing two parameters simultaneously. You can set a dot plot gate using the rectangular or elliptical region in any of the plots. If necessary, use the Show DotPlot button above the plot to display the dot plot. 4 Select the plot parameters by right-clicking the axis labels and choosing the
parameter from the pop-up menu. 5 To select the gate in Plot 1, 2 or 3, choose Rectangular Region or Elliptical Region
from the drop-down menu above the plot. 6 Set the gate.
guava ExpressPlus Analysis 5 - 11

· To set a rectangular gate, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-right handle. Events that fall within the center rectangle and appear in red are included in the gate.
NOTE: When using the negative control to set the gate, if one of the axes displays a
fluorescence parameter, be sure to extend the gate high enough up that axis so that positive events in subsequent samples are included in the gate.

Right-click to select plot parameters.

Select Rectangular Region.

Click and drag handles to manually set gate. A pop-up label displays handle's current x and y coordinates.
Rectangular region gate set on lymphocytes in a lysed whole blood sample.
· To set an elliptical gate, click anywhere on the edge of the ellipse, except on a handle, and drag it to a new location. Click on a handle to change the size and angle of the ellipse.

Right-click to select plot parameters.

Select Elliptical Region.
Click and drag handles to change size and angle of gate.

Elliptical region set on lymphocytes in a lysed whole blood sample.
Histogram Gate
The histogram gate allows you to select a specific population for analysis within a single parameter. You can set a histogram gate using the marker in Plot 1 or the first marker (M1) in Plots 2 and 3. If necessary, use the Show Histogram button above the plot to display the histogram. 4 Select the plot parameter by right-clicking the axis label and choosing the parameter
from the pop-up menu.
5 Use the Count Scale to adjust the histogram y-axis scale.

5 - 12 guava easyCyte HT System User's Guide

6 To set the histogram gate, click and drag either side of the marker to size it. Click the horizontal line to drag the entire marker. If you gate the histogram in Plot 1, events that fall within the marker appear in red are included in the gate. If you gate the histogram in Plot 2 or 3, events that fall within marker 1 (the gating marker) appear in pink. You may overlap the markers by clicking Allow Overlapping Markers, but only events within marker 1 are gated.

Adjust count scale.
Right-click to select plot parameter.

Click and drag either end to manually set gate. A label displays marker's minimum and maximum x-axis positions. Click center of marker to drag entire marker.

YLW histogram gate set on CD4-positive lymphocytes and monocytes.

Markers for Statistics
Use Plot 2 and Plot 3 to set quadrant markers, a rectangular region, an elliptical region, or histogram markers to generate statistics on all the data acquired or the data within the analysis gate(s). · If necessary, click Show Histogram/Dot Plot above the plot to display the appropriate
plot. · Select the plot parameters by right-clicking the axis labels and choosing the parameter
from the pop-up menu.
Setting Markers
7 For quadrants, a rectangular region, or an elliptical region, select Quadrant Stats, Rectangular Region, or Elliptical Region from the drop-down menu above the plot.
8 Select the data you wish to display by clicking the appropriate button under Gated On, in the top-left corner of the plot. You may choose to view and analyze all the events acquired, or only the events that are included in the gate. For Plot 2, gated data may include the gate in Plot 1, Plot 3, or both. For Plot 3, gated data may include the gate in Plot 1, Plot 2, or both. · To set quadrant markers, position the cursor over the handle at the intersection, then click and drag to the desired location

guava ExpressPlus Analysis 5 - 13

If necessary, you can adjust the angle of the markers ±44° from their original locations. Click and drag the handle (solid square) towards the end of the marker and tilt it to the desired location.

Select data to display.

Select Quadrant Stats

Right-click to select plot parameters.

Click and drag to set marker angle. A label displays markers' x and y coordinates and angle.
Click and drag to set markers. A label displays markers' x and y coordinates.

Quadrant markers set on negative control.

· To set a rectangular region, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-right handle. Events that fall within the center rectangle and appear in red are included in the region.

Select data to display.

Select Rectangular Region

Right-click to select plot parameters.

Click and drag handles to manually set gate. A pop-up label displays handle's current x and y coordinates.

Rectangular region set on CD3-positive lymphocytes.

5 - 14 guava easyCyte HT System User's Guide

· To set an elliptical region, click anywhere on the edge of the ellipse, except on a handle, and drag it to a new location. Click on a handle to change the size and angle of the ellipse.

Select data to display.

Select Elliptical Region

Right-click to select plot parameters.

Click and drag handles to change size and angle of gate.

Elliptical region set on CD4-positive lymphocytes.

· To set the histogram markers, click and drag either side of the marker to size it. Click the horizontal line to drag the entire marker. Events that fall within marker 1 appear in pink, events that fall within marker 2 appear in light green, events that fall within marker 3 appear blue. You may overlap the markers by clicking Allow Overlapping Markers. Be aware that events falling within two markers will be counted twice in the statistics.

Select data to display.

Select Allow Overlapping Markers if you want to be able to overlap the markers. Keep in mind events within two markers will be counted twice.

Adjust y-axis scale.

Click and drag either end to manually set markers. A label displays marker's minimum and maximum x-axis positions. Click center of marker to drag entire marker.

Histogram regions set on CD3-positive lymphocytes.
9 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
10 You can apply gate and/or markers settings, as well as changes to parameter names from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.

guava ExpressPlus Analysis 5 - 15

11 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.

12 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.

guava ExpressPlus Results

You can view subsets of the data and generate individual statistics for Plots 2 and 3 by selecting an option under Gated On (All Events, Plot 1, then depending on which plot you are viewing--Plot 2 or 3, Plots 1 & 3, and Plots 1 & 2).
· Click All Events to view all data in the plot. Click P1, P3, or P1 and P3 in Plot 2 to view the gated data from Plot 1, Plot 3, or data that is common to both gates. Click P1, P2, or P1 and P2 in Plot 3 to view the gated data from Plot 1, Plot 2, or data that is common to both gates. The statistics provide you with the count, cell concentration, mean signal intensities, and %CV (for histogram data) for all data in the plot (if ungated) or for data within the gate.

Histogram Statistics
guava ExpressPlus GRN histogram statistics.

The histogram statistics provide the count, cells/mL, mean signal intensity, and %CV for each population within a marker. Additionally, the % of Total or Gated shows the percentage of the data displayed in that plot or the subset of data within the gate.
The Gated on row shows the count (number of events in the gate) and the gated events as a percent of all events. If a gate was not used, Not Gated appears.

Quadrant Statistics
guava ExpressPlus quadrant statistics.

The quadrant statistics provide the count, cells/mL, and x and y mean signal intensity for each population within each quadrant. Additionally, the % of Total or Gated shows the percentage of the data displayed in that plot or the subset of data within the gate.
The Gated on row shows the count (number of events in the gate) and the gated events as a percent of all events. If a gate was not used, Not Gated appears.

5 - 16 guava easyCyte HT System User's Guide

The summary of each quadrant is outlined in the table below:

Quadrant

Staining

Color

lower left

x negative, y negative

teal

lower right

x positive, y negative

blue

upper right

x positive, y positive

pink

upper left

x negative, y positive

purple

Rectangle Statistics
guava ExpressPlus rectangular region statistics.
Ellipse Statistics
guava ExpressPlus elliptical region statistics.

The rectangle statistics provide the count, cells/mL, and x and y mean signal intensity for the population within the region. Additionally, the % of Total or Gated shows the percentage of the data displayed in that plot or the subset of data within the gate. The Gated on row shows the count (number of events in the gate) and the gated events as a percent of all events. If a gate was not used, Not Gated appears.
The ellipse statistics provide the count, cells/mL, and x and y mean signal intensity for the population within the ellipse. Additionally, the % of Total or Gated shows the percentage of the data displayed in that plot or the subset of data within the gate. The Gated on row shows the count (number of events in the gate) and the gated events as a percent of all events. If a gate was not used, Not Gated appears.

Exporting guava ExpressPlus Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.

guava ExpressPlus Analysis 5 - 17

Exporting guava ExpressPlus Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application.
1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0. You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print.
1 Select any sample from the Analyze Sample List and click Print. The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

5 - 18 guava easyCyte HT System User's Guide

guava ExpressPlus Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.

Sample Information

Original Sample Data
· Displays the sample #. This number defaults to 1 and advances at the completion of sample acquisition.
· Displays the Sample ID for the individual sample.
· Displays the number of events to acquire. The default is 5000.
· Displays the dilution factor and the original sample volume. The default values are 1 and 10, respectively.
· The progress bar provides an estimate of the target event count during acquisition.
Cell Count Displays the total number of cells and cells/µL that have exceeded the FSC threshold. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration.
Threshold Parameter and Threshold Value allow you to select the threshold parameter and enter its value. Click Set Threshold after entering the Threshold Value.
Click Change Parameter Names to enter your own parameter names (for example, the name of the monoclonal Ab you use). See "Changing Parameter Names" on page 5-20.
Count Gate allows you to select a gate used as a counting gate. All events above the threshold are saved to the file whether they are in the gate or not. However, the number of Events to Acquire is applied to events that fall within the gate. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava ExpressPlus Analysis 5 - 19

Changing Parameter Names
You can change the default long (or stain) name of any parameter. The short name, for example, GRN-HLog, will still appear in parentheses after the new long name. 1 Click Change Parameter Names in the Sample Information control panel. 2 Highlight the existing name in the Long or Stain Name text field and type in the new
name. 3 Click Update.
· You can change the long or stain names for individual samples. · If you change the names before starting acquisition, the new names will apply to all
samples in the run. · If you use the Apply Current Settings to Selected Samples button during analysis,
any changes made to long names will be applied to the selected samples.
5 - 20 guava easyCyte HT System User's Guide

Unit Control

Detection Displays the laser status, the SSC (if installed) GRN, YLW, and RED voltage settings, and the FSC gain.
NOTE: Do not change the voltages from this panel. Use the
sliders in Adjust Settings to adjust the SSC, GRN, YLW, and RED voltages. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the offset and threshold settings for the threshold parameter. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava ExpressPlus Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava ExpressPlus spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava ExpressPlus FCS file to another directory or give it a new name.

guava ExpressPlus Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

guava ExpressPlus Assay Troubleshooting 5 - 21

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Cell Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in plots displaying GRN, YLW, or RED.

1. Laser not warmed up.
2. Instrument settings not optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell Count shows events, but the events appear in the wrong places in plots displaying GRN, YLW, and/ or RED.

1. Sample was not stained. 2. Cell lysis.

Events appear in Plot 1 but Plot 1 gate excludes events,

not in Plot 2 or Plot 3.

and gate is applied to Plot 2

and/or Plot 3.

1. Check sample. If necessary, restain sample from original suspension.
2. Check buffers used to process cells.
Uncheck Plot 1 (under Gated On) for Plots 2 and 3 to see if events appear. Or, set Plot 1 gate to include population of interest.

5 - 22 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Events appear in Plot 2 but not in Plot 3.

Plot 2 gate excludes events, and gate is applied to Plot 3.

Uncheck Plot 2 (under Gated On) for Plot 3 to see if events appear. Or, set Plot 2 gate to include population of interest.

Events appear off scale in dot plots or histograms.

FSC gain or SSC, GRN, YLW, Adjust gain setting or voltage

and/or RED voltages set

settings so positive

incorrectly, or samples

populations appear on scale.

staining brightly.

Repeat Adjust Settings with

negative sample. Adjust

compensation settings.

Poor resolution between positive and negative populations.

1. Voltages too low to detect 1. Adjust settings to increase

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

2. Incomplete staining with 2. Ensure positive control is

fluorescent probe, or

staining adequately and

fluorescent probe

with correct reagent.

inappropriate for cell type.

3. Fluorescent probes over- 3. Refer to reagent package

exposed to light, stored

insert for proper storage

improperly, or expired.

instructions. Do not expose

reagent to excessive light.

Do not use expired

reagents.

4. Non-specific binding of fluorescent probes.

4. If using antibody-based probes, try Fc blocking reagent during staining to

minimize non-specific

binding. Otherwise, titer

the fluorescent probes

down to reduce the

nonspecific staining.

5. Background noise too high. 5. Adjust settings to increase FSC threshold to remove

debris. Or, wash stained

sample and reacquire.

guava ExpressPlus Assay Troubleshooting 5 - 23

Problem

Possible Cause

Solutions

Poor resolution between 1. Incomplete staining with 1. Check expiration date and

positive populations in plots reagent(s).

amount of reagent(s) used

displaying GRN, YLW, and/

in staining.

or RED.

2. Too much reagent in

2. Washing cells may remove

staining tube.

residual reagent.

3. Fluorescence background 3. Washing cells may remove

too high.

residual reagent.

4. Voltage too high causing 4. Adjust settings to reduce

signal to bleed into other

voltage. Adjust

parameters.

compensation settings.

5. Voltage too low to optimally 5. Adjust settings to increase

detect positive signal.

voltage. Adjust

compensation settings.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris. Or, select one of

the fluorescence

parameters as the

threshold.

5 - 24 guava easyCyte HT System User's Guide

CHAPTER 6 guava ExpressPro Assay
Introduction
The guava ExpressPro Assay allows you to acquire and analyze up to six fluorescence parameters in combination with forward scatter (FSC) and side scatter (SSC), provided as an optional parameter, as well as area, width, and time, to identify cells with specific phenotypic markers or specific properties. The software provides absolute cell counts and allows you the flexibility to stain samples with the guava Express Reagents, your own fluorochrome-conjugated antibody reagents, DNA intercalating dyes, or other green, yellow, red, and/or near infrared (NIR) fluorescent reagents that are excited by a 488-nm laser, as well as red (RED2) or near infrared (NIR2) fluorescent reagents that are excited by a 640-nm laser. The guava ExpressPro Assay can be used for any one-, two-, three-, four-, five-, or sixcolor assay including:
· protein expression or other cell-surface marker experiments · intracellular staining · screening and analyzing cells expressing Green Fluorescent Protein (GFP) The Green parameter can be used for FITC, GFP, or Alexa Fluor 488. The Yellow parameter has been optimally configured for use for phycoerythrin (PE)-based reagents, although fluorochromes with comparable emission spectra, such as propidium iodide (PI), TRITC, DS Red, sulforhodamine, Cy3, and Alexa Fluor 532 can also be used. The Red parameter can be used to detect PE-Cy5, PerCP, 7-AAD, PE-Cy5.5, and PI. The NIR parameter can be used to detect PE-Cy7 or PE-AlexaFluor 750. The RED2 parameter can be used to detect Allophycocyanin (APC) or fluorochromes with comparable emission spectrum. The NIR2 parameter can be used to detect Cyanine 5 (Cy5), APC-Cy7, APCAlexaFluor 750, or fluorochromes with comparable emission spectrum. Refer to Specifications for the guava easyCyte HT System fluorescence detection range. In addition to the height value for each pulse measured, you can select to save width and area of each pulse for a single parameter. These measurements are especially useful in cell cycle analysis to discriminate doublets from singlets.
To run the assay, stain samples using an appropriate fluorochrome combination for up to six fluorescence parameters. Acquire the samples on the guava easyCyte HT System using guavaSoft Software. The data are displayed in eight plots, which can be set up to show histograms or dot plots with any parameter combination (FSC, SSC, GRN, YLW, RED, near infrared [NIR], RED2, and NIR2, as well as area, width, and time). You may set up to 16 global regions and 32 global gates to select a specific subpopulation(s) for
Introduction 6 - 1

analysis, then choose the gate(s) for which you want to display statistics for the remaining plots. Histogram and dot plot statistics include the cell count, cells/mL, mean signal intensity, geometric mean signal intensity, median signal intensity, and %CV for the data within the entire plot and the subset of data within the markers/gate. Additionally, the data are expressed as a percentage of the total data within the plot (whether gated from the dot plot or histogram) and as a percentage of data within the gate. The guava ExpressPro data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you selected to save FCS 2.0 files. In addition to the saved data file, user-selectable statistics, instrument settings, and the acquisition summary information are exported to a spreadsheet file.
Running the guava ExpressPro Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "guava ExpressPro Software Module Control Panels" on page 6-25. 1 Open guavaSoft Software by double-clicking the guavaSoft 2.7 icon on the desktop. 2 Click ExpressPro from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples. The guava ExpressPro application window opens displaying eight plots. The control panel and acquisition buttons are hidden. To display the control panels, click Show
6 - 2 guava easyCyte HT System User's Guide

Left Panel at the top-left area of the window. To display the acquisition buttons, click Show Acquisition Buttons at the bottom-right area of the window.
hide/show control panel
hide/show Acquisition buttons
3 Prepare samples for analysis in a microplate or 0.5-mL tubes. 4 Click Worklist Editor to open the Worklist Editor application and define the worklist
parameters.
NOTE: If you already created a worklist, you can click Start Worklist. The tray ejects
and dialog boxes appear prompting you to select the worklist file, save the data set, and select the sample to adjust instrument settings.
Running the guava ExpressPro Assay 6 - 3

5 Define the worklist parameters for the run and click Start this Worklist. See "Creating a Worklist" on page 1-29 for more information on setting up a worklist. When you start a worklist, the sample tray ejects. A dialog box appears prompting you to load samples.
WARNING: Keep the area in front of the tray clear as the tray ejects.

WW E BW E
ICF

Tubes containing: W - water E - empty B - bleach ICF - Instrument Cleaning Fluid

Place plate so that well A1 is at top-right corner.

7 Click OK in the Load Samples dialog box after you are finished loading samples and cleaning tubes to load the sample tray.
WARNING: Keep the area clear as the tray loads. WARNING: Always use the Eject Tray button in guavaSoft Software to open the door.
Click Pause first, if necessary. Never open the door with your fingers.
6 - 4 guava easyCyte HT System User's Guide

8 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
9 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
10 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends using a stained negative or isotype control sample for the initial
Running the guava ExpressPro Assay 6 - 5

adjustments. Click to select the well or tube (19) used to adjust settings, then click OK.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data.
11 Check the Cells/µL value in the Sample Information control panel and ensure that it is less than or equal to 500.
NOTE: If the value is greater than the high limit for the corresponding flow rate, click
the Abort, then Eject Tray. Dilute the sample with the appropriate buffer to lower the concentration and minimize the risk of coincident events. For optimal performance, EMD Millipore recommends a concentration of 50500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings.
12 To adjust or fine tune the settings, you can make the following adjustments once events start to appear on the screen:
NOTE: Click the plus sign (+) at the upper-right corner of a
plot or right-click the plot to open the plot menu. Point to Plot Type and select the type of plot you wish to display. Select No Plot to hide the plot. To replace it, double-click the blue rectangle that appears in place of the plot. Click the axis label(s) and select the appropriate label from the pop-up menu. You can choose linear and log scale for each parameter except time and width. · Set the Refresh Rate to the maximum number of events you want to display. · Set the Flow Rate to Very Low (0.12), Low (0.24 µL/s), Medium (0.59 µL/s) or High (1.2 µL/s). The recommended flow rate is Medium.
NOTE: If you change the flow rate during the adjust settings step, EMD Millipore
recommends that you repeat the adjust settings step at the new flow rate to ensure that the markers and threshold are still set correctly. · Use the FSC Gain slider to reduce or amplify the FSC signal so that the cells are visible and on scale. · Adjust the gains (using the SSC, GRN, YLW, RED, NIR, RED2, or NIR2 sliders or the arrow keys on the keyboard) to a value from 1 to 1024. Adjust so that the negative population is positioned in the lower-left corner of the fluorescence plot and the cells are evenly distributed in the lower-left quadrant. Start from a lower
6 - 6 guava easyCyte HT System User's Guide

gain setting and gradually increasing the value. For greater detection and sensitivity across a broad range of fluorescence, the overall gain range can be adjusted using the High check box. By default, all boxes are checked. If further adjustment is needed, remove the checks from the High Calibration Voltage check boxes and allow the voltage to stabilize for 25 seconds. · Select the threshold parameter (FSC, SSC, GRN, YLW, RED, NIR, RED2, or NIR2) from the drop-down menu in the Sample Information control panel. · To adjust the threshold, click and drag the threshold marker (dotted red line) up or down the axis of the dot plot displaying the threshold parameter until the desired amount of debris or other unwanted events are eliminated below the threshold. You can also enter a numerical value in the Threshold Value text box in the Sample Information control panel, then click Set.
NOTE: When setting the threshold, place it at least 2 to 3 mm to the left of the cells of
interest to ensure that you are not excluding cells. Any debris that gets acquired can be excluded during analysis with an optional dot plot gate.
· If you wish to save area and width measurements for a specific parameter, select the parameter from the Area/Width Parameter menu in the Sample Information control panel. Use the Area and/or Width Scale sliders to reduce or amplify the signal so that the cells are visible and on scale.
Running the guava ExpressPro Assay 6 - 7

· If you wish to save a time parameter, select Time from the parameter list. Click Set Time Scale in the Sample Information control panel and use the slider to set the maximum time to plot, then click OK. Adjust the y-axis (count) scale, if necessary.
· To adjust compensation, click Next Step, Settings, Adjust Settings, then select the location of a positive control sample. You may want to adjust each compensation setting individually using single-stained controls. Select the parameter radio button, then use the slider to remove the overlapping signal.

NOTE: You must check the compensation for each fluorochrome combination you

are using. For example, if using FITC and PE fluorochromes, which correspond to

the GRN and YLW parameters, respectively, ensure that YLW%GRN and GRN

%YLW compensation settings are correctly adjusted (see Figures 1 and 2 on

page 6-8 for examples). If using PE-Cy5 as well, which corresponds to the RED

parameter, ensure that the YLW%RED and RED%YLW compensation settings

are correctly adjusted (see Figures 3 and 4).

Figure 1a

Figure 1b

Figure 2a

Figure 2b

GRN%YLW uncompensated (Fig 1a) and compensated (Fig 1b) YLW%GRN uncompensated (Fig 2a) and compensated (Fig 2b)

Figure 3a

Figure 3b

Figure 4a

Figure 4b

YLW%RED uncompensated (Fig 3a) and compensated (Fig 3b) RED%YLW uncompensated (Fig 4a) and compensated (Fig 4b) 6 - 8 guava easyCyte HT System User's Guide

Adjust YLW%NIR and NIR%YLW (see Figures 5 and 6). If necessary, adjust RED%NIR (see Figure 7). Typically NIR%RED compensation does not need to be adjusted.

Figure 5a

Figure 5b

Figure 6a

Figure 6b

NIR%YLW uncompensated (Fig 5a) and compensated (Fig 5b)

Figure 7a

Figure 7b

YLW%NIR uncompensated (Fig 6a) and compensated (Fig 6b)

RED%NIR uncompensated (Fig 7a) and compensated (Fig 7b)
If necessary, select GRN vs RED and/or GRN vs NIR to adjust these compensation settings. Some fluorochromes require very little compensation because they have little overlap, such as PE into the GRN parameter (GRN %YLW) [see Figures 1a and 1b]; whereas others require much more compensation because they have more overlap, such as FITC into the YLW parameter (YLW %GRN) [see Figures 2a and 2b]. Compensation settings are correct when the edge of the stained population touches the axis. Avoid having too many cells touching the axis (overcompensated) or the population too far from the axis (undercompensated).
NOTE: If you adjust the compensation with single-color samples, check the
compensation settings again with a sample stained with all fluorochromes and finetune, if necessary.
NOTE: If you acquire samples with a new fluorochrome combination, you must
ensure that the compensation is set correctly for the new samples.
13 You may set gates and markers prior to acquiring the samples. Refer to "Setting Markers" on page 6-13 and "Defining Gates" on page 6-18 for information. If you wish to apply a count gate, define the gate, then select the appropriate gate from Count Gate drop-down menu in the Sample Information control panel. You can select the count gate from the Adjust Settings screen only.
NOTE: Gates can only be a rectangular, elliptical, or octagonal region, or a histogram
marker. You cannot use quadrant markers as gates.
Running the guava ExpressPro Assay 6 - 9

14 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples (such as another positive control) are on scale, appropriately positioned, and compensated, by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s). If you made changes to an existing settings file, when you click Next Step you will be prompted to save it as a new file or overwrite the existing file.
15 Click Resume. The system acquires the first sample and automatically displays the results. The tube/ well currently being acquired is highlighted in red.
ACQUISITION NOTES
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Clean & Rinse, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 1.75 minutes (high flow rate), 3.5 minutes (medium flow rate), 7 minutes (low flow rate), or 10 minutes (very low flow rate).
The system automatically performs a Quick Clean or a Clean & Rinse at the end of the assay.
6 - 10 guava easyCyte HT System User's Guide

guava ExpressPro Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. The Worklist Editor can be accessed from the Analysis screen as well. You can also export data to FCS 2.0 files or a spreadsheet file. You can save any changes made within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (plots, axes parameters, gates, markers, etc) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. This version of the ExpressPro Software Module within guavaSoft Software, version 2.7 allows you to open and analyze files from guava ExpressPro 5.2.7, as well as guava ExpressPlus files (*.EP5.FCS). Remember to select All FCS 3.0 files from the Files of type text box. 1 Click ExpressPro from the main menu. 2 Click Go to Analysis from the Acquisition screen.
The Analysis window opens displaying eight plots. The control panel and analysis buttons are hidden. To display the control panel, click Show Left Panel at the left of the window. To display the analysis buttons, click Show Analysis Buttons at the right of the window. You can hide the analysis buttons once the data are displayed.
guava ExpressPro Analysis 6 - 11

Plot Menu
Most of the analysis features are available from the plot menu. Click the plus sign (+) in the upper-right corner above the plot or right-click the plot to open the plot menu. You can copy a plot to the Microsoft Windows clipboard, by selecting Copy Plot to Clipboard. If you need a large copy of a plot, zoom the plot before you copy it. For more information on the options in the plot menu refer to "Editing Markers" on page 6-16, "Creating Global Regions" on page 6-18, and "Changing the Plot Appearance" on page 6-19.
Markers
Select any plot to set markers. If the plot is a histogram, you can set histogram markers. If the plot is a dot plot, you can set rectangular, quadrant, octagonal, or elliptical markers. Markers allow you to generate statistics on all the data acquired or the data within the analysis gates. You can set up to 10 markers on the data within a single plot, but only one set of quadrant markers per plot. Each marker is assigned a number that increments by one for each additional marker created. Once markers are set, they can be added to a global region list. You can then use the regions within the global region list to define gates. Markers will stay in the same locations on the plot if different parameters are displayed. If scaling is switched between log and linear, the elliptical, octagonal, and quadrant markers will remain in the same location; while the histogram and rectangular markers will adjust to the selected scale. · Click the plus sign (+) in the upper-right corner above the plot to open the plot menu.
Point to Plot Type and select the type of plot you wish to display. · Select the plot parameters by clicking the axis labels and choosing the parameter from
the pop-up menu.
Setting Markers
4 Open the plot menu, point to Add Markers, then select the type of marker you wish to set. Select Histogram Marker for a histogram plot, or Rectangular Marker, QuadStat Marker, Octagonal Marker, or Elliptical Marker for a dot plot.
NOTE: If you already have a gate defined, you can apply it to the data in the plot by
opening the plot menu, pointing to Apply Gates, then selecting the gate.
After you set the appropriate markers for analysis, you can define and apply gate (see "Defining Gates" on page 6-18).
guava ExpressPro Analysis 6 - 13

Histogram Markers · To set the histogram marker, click and drag either side of the marker to size it. Click the horizontal line to drag the entire marker. Events that fall within marker 1 appear in red, events that fall within marker 2 appear in blue, and so on. There are 10 default colors for the 10 markers. However, you can change the colors of events falling within any marker set (see "Editing Markers" on page 6-16). You can move the histogram marker vertically along the y axis of the plot by holding down the Shift key and clicking and dragging the marker up or down. Use the Count Scale in the left corner above the plot to adjust the histogram y-axis scale.
Adjust y-axis scale. Click and drag either end to manually set markers. A label displays marker's minimum and maximum x-axis positions. Click center of marker to drag entire marker. Hold down the Shift key and click and drag marker vertically up or down the y axis. Histogram marker set on negative control.
Rectangular, Quadrant, Octagonal, and Elliptical Markers · To set a rectangular marker, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-right handle. Events that fall within the center rectangle are included in the marker.
Click and drag handles to manually set marker. A pop-up label displays handle's current x and y coordinates. Rectangular marker set on CD3+ lymphocytes.
6 - 14 guava easyCyte HT System User's Guide

· To set quadrant markers, position the cursor over the handle at the intersection, then click and drag to the desired location If necessary, you can adjust the angle of the markers ±44° from their original locations. Click and drag the handle (solid square) towards the end of the marker and tilt it to the desired location.
Click and drag to set marker angle. A label displays markers' x and y coordinates and angle. Click and drag to set markers. A label displays markers' x and y coordinates.
Quadrant markers set on negative control.
· To set an octagonal marker, click on a line of the octagon to drag it to a new location. Click on a handle to change the size of or rotate the octagon. To move one of the handles, press and hold the shift key while clicking and dragging a handle.
Click and drag a line to move octagon. Click and drag handle to change size of or rotate octagon. Hold down Shift key while clicking and dragging to move one handle. Octagon marker set on CD3+, CD4+ lymphocytes.
· To set an elliptical marker, click anywhere on the edge of the ellipse, except on a handle, and drag it to a new location. Click on a handle to change the size and angle of the ellipse.
Click and drag handles to change size and angle of ellipse.
Click and drag edge to move ellipse.
Elliptical marker set on lymphocytes.
guava ExpressPro Analysis 6 - 15

5 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
6 You can apply gate and/or markers settings, as well as changes to parameter names from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
NOTE: Apply Current Settings to Selected Samples applies to parameter names as
well, so make name changes last and apply only to the samples with the same custom name.
7 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
8 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.
Editing Markers
Use Edit Marker List in the plot menu to add markers to the global region list, delete markers from the plot, and change the color of events that fall within the markers. Click and drag the window to move it to a new location on the screen.
Change color of events within marker. Change marker name.
Add marker to global region list. Delete marker from plot.
· To add a marker to the global region list, click to select the marker from the list and then click Add to Global Region List. Global will appear in the Status column. Click
6 - 16 guava easyCyte HT System User's Guide

OK. You cannot add quadrant markers to the global region list. To return the settings in this dialog to their original values, right-click a marker and select Reset. · To change the default name, click in the Marker Name field and type a new name. You can use any alphanumeric characters and symbols, except spaces and parentheses. · To remove a marker from the global region list, click Demote to Local Marker. Demote will appear in the Status column. · To delete a marker from the plot, click the marker in the list, and click Remove. Click OK. You can also right-click the marker and select Remove. If the marker was in the global region list, it will be removed from the list. See the note on page 6-19 for more information on removing a marker from the global region list. · To change the color of the events within a marker, click on the color in the Color column, then click the palette icon and select the desired color from the standard Windows pop-up color palette. Click OK.
Click any color to display the palette icons. Click any color to display the palette icons.
Then, click the palette icon for the color you want to change and select a color from the standard Windows color palette. Click OK. Click the close box in the Quad Stat Colors pop-up window.
· To specify the height of a histogram marker as a percentage of the height of the histogram, click in the Y Pos (%) and enter a number from 10 to 100 or use the arrows to increase or decrease the value.
· To overlap histogram markers, select Edit Marker List from the plots menu, then click Allow Overlapping Markers. Be aware that events falling within two markers will be counted twice in the statistics. However, if the right side of one marker and left side of the second marker are at the exact same plot location, typically events will not be counted twice.
Click to overlap histogram markers.
guava ExpressPro Analysis 6 - 17

Defining Gates
Once you create markers to identify various subpopulations, you can add the markers to a global region list. These regions can then be used to define gates. You can set up to 32 analysis gates on the data within the plots. You can also choose to analyze without using gates.
Creating Global Regions
To create global regions, start by setting markers on the populations of interest. · Select Edit Marker List from the plot menu to display the Marker List dialog box with a list of markers in the selected plot. Select a marker and click Add to Global Region List. Global will appear in the left column. Click OK.
The Marker List dialog box allows you to add a marker to the global region list, delete a marker from the plot, and change the color of events that fall within the marker. A marker can be demoted from a global marker back to a local marker.
· Select Edit Gate List from the plot menu to display the Gates dialog box. The left side of the box displays a list of markers that were added to the global region list. The list on the right displays a list of gates. To define a gate, click Add New Gate. Enter the definition. The definition may include the following operators--AND, OR, NOT. For example: R1 AND R2 means the event must be in both the R1 and R2 regions to be included in the gate. R1 OR R2 means the event must be in either the R1 or R2 region to be included in the gate. R1 AND (NOT R2) can be used if R1 and R2 overlap and you want to include events in R1 but not in R2.
6 - 18 guava easyCyte HT System User's Guide

· To add a gate, click Add New Gate, or right-click a gate and select Add Gate. Click in the Definition field, type the gate definition, and click OK.
· To change the default name, click in the Name field and type a new name to describe the gate. You can use any alphanumeric characters and symbols, except spaces and parentheses.
· Once you have defined a gate, you can apply that gate to data appearing in any of the plots. Open the plot menu, point to Apply Gates, then select the gate.
· To change the color of events within a gate, click the color box under the Color column.
· To delete a gate, select the gate from the list and click Delete, or right-click a gate and select Delete. Right-click and select Reset to restore a deleted gate.
NOTE: If you select Edit Marker List and use the Marker List dialog box to remove a
marker that was a global region and that was used to define a gate, a dialog box will appear warning you that some gate definitions have been altered. Click Yes to review those changes which appear in red in the Gates dialog box.
When a global region is removed from a local plot, that global region is removed from the regions list in the Gates dialog box, and the gate definition now shows a "1" in place of the global region number, indicating all events are used in that gate definition.
Changing the Plot Appearance
Overlaying Plots
You can overlay the data of up to six samples in a dot plot and seven samples in a histogram plot. By selecting a different color for each sample, you can see the different sample data overlaid within the same plot. 1 Select Overlay from the plot menu.
The Overlay Settings dialog box appears (histogram overlay dialog box shown).
Change order of overlays.
Click to display the overlays in the plot.
guava ExpressPro Analysis 6 - 19

2 Click the Sample # column and select the sample from the drop-down list. You may select up to six samples for dot plots and seven samples for histograms.
3 To change the line or fill color, click the color in the Line and/or Fill Color column for a sample, then click the palette icon and select the desired color from the color palette. Click OK.
4 Click Show Overlay and then click OK. The plot will display the selected sample data in the selected colors. The first sample's dot plot/histogram is drawn, then the other plots are layered over it, with the last plot appearing on top. When you overlay plots, any markers you had previously set as well as the stats, apply to the base plot only. To change the overlay order, click a sample in the list then click the up or down arrow at the right of the list to reorder the sample. To remove an overlaid plot, right-click on the overlay and select Remove. The overlay plots are gated from the same gate as the initial plot.
NOTE: You cannot overlay sample data with different plot parameters. A message will
appear informing you that some samples do not have the required parameters.
Displaying a Backgate
A backgate allows you to display the gated events in the color for the selected gate. This enables you to see the gated events within the plot.
1 Open the plot menu, point to Display Backgate, then select the gate from the list. The events within the plot that are contained in the selected gate will appear in the color for that gate.
Changing the Number of Dots to Display
You can change the number of dots displayed in the plot.
1 Open the plot menu, point to % Dots to Display, then select a percentage from the menu. If you choose Custom, you can enter the number of events you wish to display.
Zooming a Plot
1 Select Zoom Plot from the plot menu. To unzoom the plot, right-click the zoomed plot and select Normal Size Plot.
guava ExpressPro Results
You can view subsets of data and generate individual statistics for the data in any of the plots. You must manually select any statistics that you wish to export. See "Selecting Statistics for the Spreadsheet File" on page 6-22. You can resize the stats windows by clicking and dragging the bottom or right edge of the window. You can resize the columns by clicking and dragging the right edge of the column header. If the column becomes too small to adjust, close, then reopen the window to restore the column width.
6 - 20 guava easyCyte HT System User's Guide

· Open the plot menu and click Show Stats. The statistics provide you with the count, % total, % gated, cell concentration, signal intensities, and %CV (for histogram data) for all data in the plot (if ungated) or for data within the gate.

Histogram Statistics

The histogram statistics provide the count, % total, % gated, mean signal intensity, geometric mean, median, %CV, and cells/mL for each population within a marker.
The All Events row shows the statistics for the events in the gate. If a gate was not applied, All Events shows the stats for all events.

guava ExpressPro histogram statistics.

Quadrant Statistics
guava ExpressPro quadrant statistics.

The quadrant statistics provide the count, % total, % gated, x and y mean signal intensity for each population within each quadrant, x and y geometric Mean, x and y median, x and y %CV, and cells/mL.
The All Events row shows the statistics for the events in the gate. If a gate was not applied, All Events shows the stats for all events.

The summary of each quadrant is outlined in the table below:

Quadrant

Staining

Default Color

lower left lower right upper right upper left

x negative, y negative x positive, y negative x positive, y positive x negative, y positive

red blue green fuchsia

Rectangle Statistics
guava ExpressPro rectangular region statistics.

The rectangle statistics provide the count, % total, % gated, x and y mean signal intensity for the population within the rectangle, x and y geometric mean, x and y median, x and y %CV, and cells/mL.
The All Events row shows the statistics for the events in the gate. If a gate was not applied, All Events shows the stats for all events.

guava ExpressPro Analysis 6 - 21

Octagonal Statistics
guava ExpressPro octagonal region statistics.

The octagon statistics provide the count, % total, % gated, x and y mean signal intensity for the population within the octagon, x and y geometric mean, x and y median, x and y %CV, and cells/mL.
The All Events row shows the statistics for the events in the gate. If a gate was not applied, All Events shows the stats for all events.

Ellipse Statistics
guava ExpressPro elliptical region statistics.

The ellipse statistics provide the count, % total, % gated, x and y mean signal intensity for the population within the ellipse, x and y geometric mean, x and y median, x and y %CV, and cells/mL.
The All Events row shows the statistics for the events in the gate. If a gate was not applied, All Events shows the stats for all events.

Selecting Statistics for the Spreadsheet File
Although you can view any statistics on screen, you must manually select the statistics that you wish to export to the spreadsheet file.
1 Open the plot menu from any plot and select CSV Stats Template. The CSV Stats Template dialog box appears.

Select the plot.
Then select the statistics for all events or the marker(s) in that plot.

Export up to 256 columns.
The left side of the screen displays a list of instrument settings and sample information that is always exported to the spreadsheet file. The right side of the screen allows you to select the specific statistics that will be exported for each plot. If a plot has more than one marker, you can select the stats for each marker. When you click OK, the statistic you selected will be remembered the next time you open the CSV Stats Template. · Click to select the statistic for export. Stats are shown for each marker in the plot or
total events in the plot if no markers are set.
6 - 22 guava easyCyte HT System User's Guide

· Click Reset to ignore any changes made and revert to the stats that were selected when you opened the CSV Stats Template.
NOTE: If you exceed 256 columns, a warning message appears requesting that you
review and remove stats until there are no more than 256 columns of stats for export.
Exporting guava ExpressPro Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel. The CSV file will contain only the sample information and instrument settings unless you select the stats you wish to export.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.
Exporting guava ExpressPro Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application. 1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0.
You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print. 1 Select any sample(s) from the Analyze Sample List and click Print.
The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print. If you selected multiple samples or all samples in the run, the results will print in batch mode.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
guava ExpressPro Analysis 6 - 23

Batch Printing
If you wish to print data from multiple samples, highlight the samples in the Sample Analysis List control panel, then click Print. Note that when printing in batch mode:
· Print preview is not available. · The number of pages to print shown in the print dialog box refers to the number of
pages each sample will print on (typically 2 per sample) and not to the total number of pages that will be printed. · You can select to print only the 1st page or 2nd page for each sample.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

6 - 24 guava easyCyte HT System User's Guide

guava ExpressPro Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.

Sample Information

Original Sample Data
· Displays the sample #. This number defaults to 1 and advances at the completion of sample acquisition.
· Displays the Sample ID for the individual sample.
· Displays the number of events to acquire. The default is 5000.
· Displays the dilution factor and the original sample volume. The default values are 1 and 10, respectively.
· The progress bar provides an estimate of the target event count during acquisition.
Cell Count Displays the total number of cells and cells/µL that have exceeded the threshold. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration.
Threshold Parameter and Threshold Value allow you to select the threshold parameter and enter its value. Click Set after entering the Threshold Value.
Area/Width Parameter allows you to save area and width measurements for a selected parameter.
Set Time Scale allows you to adjust the time parameter axis scale.
Click Change Parameter Names to enter your own parameter names (for example, the name of the monoclonal Ab you use). See "Changing Parameter Names" on page 6-26.
Count Gate allows you to select a gate used as a counting gate. All events above the threshold are saved to the file whether they are in the gate or not. However, the number of Events to Acquire is applied to events that fall within the gate. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava ExpressPro Analysis 6 - 25

Changing Parameter Names You can change the default long (or stain) name of any parameter. The short name, for example, GRN-HLog, will still appear in parentheses after the new long name. 1 Click Change Parameter Names in the Sample Information control panel.
The Customize Parameter Names dialog box appears. Area and width appear only if they were selected during the adjust settings step. 2 Highlight the existing name in the Long or Stain Name text field and type in the new name. 3 Click Update.
· You can change the long or stain names for individual samples. · If you change the names before starting acquisition, the new names will apply to all
samples in the run. · If you use the Apply Current Settings to Selected Samples button during analysis,
any changes made to long names will be applied to the selected samples.
6 - 26 guava easyCyte HT System User's Guide

Unit Control

Detection Displays the laser status, the FSC, SSC, GRN, YLW, RED, NIR, RED2, and NIR2 gain settings. Displays the area and width scaling factor.
NOTE: Do not change the gains from this panel. Use the
sliders in Adjust Settings to adjust the SSC, GRN, YLW, RED, NIR, RED2, and NIR2 gains. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the offset and threshold settings for the threshold parameter. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava ExpressPro Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava ExpressPro spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava ExpressPro FCS file to another directory or give it a new name.

ExpressPro Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

guava ExpressPro Assay Troubleshooting 6 - 27

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Cell Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in plots displaying GRN, YLW, RED, NIR, RED2, and/or NIR2.

1. Laser not warmed up.
2. Instrument settings not optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell Count shows events, but the events appear in the wrong places in plots displaying GRN, YLW, RED, NIR, RED2, and/or NIR2.

1. Sample was not stained. 2. Cell lysis.

1. Check sample. If necessary, restain sample from original suspension.
2. Check buffers used to process cells.

6 - 28 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Events appear in some plots but not in others.

Ensure correct gate is selected for plot in question.

1. Open plot menu, point to Apply Gates and select gate.
2. Check gate definition to ensure it includes the correct regions and operators.

Events appear off scale in dot plots or histograms.

FSC, SSC, GRN, YLW, RED, Adjust gain setting so

NIR, RED2, and/or NIR2

positive populations appear

gains set incorrectly, or

on scale. Repeat Adjust

samples staining brightly.

Settings with negative

sample. Adjust

compensation settings.

Poor resolution between positive and negative populations.

1. Gains too low to detect

1. Adjust settings to increase

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

2. Incomplete staining with 2. Ensure positive control is

fluorescent probe, or

staining adequately and

fluorescent probe

with correct reagent.

inappropriate for cell type.

3. Fluorescent probes over- 3. Refer to reagent package

exposed to light, stored

insert for proper storage

improperly, or expired.

instructions. Do not expose

reagent to excessive light.

Do not use expired

reagents.

4. Non-specific binding of fluorescent probes.

4. If using antibody-based probes, try Fc blocking reagent during staining to

minimize non-specific

binding. Otherwise, titer

the fluorescent probes

down to reduce the

nonspecific staining.

5. Background noise too high. 5. Adjust settings to increase FSC threshold to remove

debris. Or, wash stained

sample and reacquire.

Cannot resolve dim positive Dirty capillary. staining from background signal.

Perform at least one cycle of Guava Clean. While acquiring samples, select Clean & Rinse instead of Quick Clean, and if necessary, run it frequently.

guava ExpressPro Assay Troubleshooting 6 - 29

Problem

Possible Cause

Solutions

Poor resolution between 1. Incomplete staining with 1. Check expiration date and

positive populations in plots reagent(s).

amount of reagent(s) used

displaying GRN, YLW,

in staining.

RED, NIR, RED2, and/or 2. Too much reagent in

NIR2.

staining tube.

2. Washing cells may remove residual reagent.

3. Fluorescence background 3. Washing cells may remove

too high.

residual reagent.

4. Gains too high causing

4. Adjust settings to reduce

signal to bleed into other

gain. Adjust compensation

parameters.

settings.

5. Gain too low to optimally 5. Adjust settings to increase

detect positive signal.

gain. Adjust compensation

settings.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris. Or, select one of

the fluorescence

parameters as the

threshold.

6 - 30 guava easyCyte HT System User's Guide

CHAPTER 7 guava InCyte Assay
7.1 Introduction
guava InCyte was developed to be an open assay module providing all the basic tools for sample acquisition and data analysis. The guava InCyte module allows you to acquire and analyze up to six fluorescence parameters in combination with forward scatter (FSC) and side scatter (SSC), as well as area, width, and time. Unlike other flow cytometry-based software, InCyte allows you to focus analysis at either the sample or the experiment level. An experiment can be described as a single acquisition of samples, acquisition across multiple days, or multiple conditions acquired within one day. Experimental analysis within InCyte allows you to perform both simple data set analyses, as well as more complex analyses such as; comparative analyses both within data sets (between samples) and between data sets (control vs stimulated, healthy vs disease, replicates - day 1 vs 2 vs 3) or different parameters (expression of multiple proteins or functional assays such as apoptosis). InCyte offers the following features: · simple gating and display of samples, including drag and drop gating capabilities · easy export of statistics · the simultaneous application of Analysis Methods (analysis/gating strategies) across
entire data sets or subsets of a data set · visualization of statistical results in the form of a plate map · analysis of FCS 3.0 data files acquired using any guava software module · "grouping" which allows you to analyze subsets of samples from guava FCS files, as
well as combine samples from different guava FCS files · sample pooling for rare event analysis · post-acquisition compensation · semi-automated compensation · IC-50 and EC-50 curves A single Method (or analysis strategy) can be applied to multiple data sets in parallel, or multiple Methods can be applied to a single data set to obtain statistics to be displayed in the heat map. The process of creating equation-based gating schemes has been simplified through use of drag-and-drop regions; "draggable" features are used throughout InCyte.
7.1 Introduction 7 - 1

The HeatMap allows you to visually compare results using a plate map that displays varying shades of blue to represent relative statistical values. Results from up to six parameters or six data sets can be displayed simultaneously.
The instrument is configured to detect the following fluorochromes: · The Green parameter has been optimally configured for FITC, GFP, or Alexa
Fluor® CF-488. · The Yellow parameter has been optimally configured for phycoerythrin (PE)-based,
Cy3, Alexa Fluor® 532, propidium iodide (PI), TRITC, and DS Red reagents. · The Red parameter can be used to detect PE-Cy5, PerCP, 7-AAD, PE-Cy5.5, and PI. · The NIR parameter can be used to detect PE-Cy7. · The Red2 parameter can be used to detect Allophycocyanin (APC), Cy5, or Alexa
Fluor® CF-647. · The NIR2 parameter can be used to detect APC-Cy7, or APC-Alexa Fluor® 750.
Additionally, all channels can be used with reagents that fluoresce in appropriate channels. Refer to "Specifications" for filter information.
Components of InCyte Files
InCyte files can be thought of as having two components--the raw FCS data and the analysis components (regions, gates, markers, statistics, etc). Both of these components form the Analysed Group. When you open an InCyte FCS file during analysis, these three components (data, Method, and Analysed Group) appear in their respective pane of the Analyse control panel. This allows you to easily apply different Methods to different data files or subsets of a single data file, and to analyze and save FCS files from guavaSoft programs other than InCyte, using different analysis strategies.
Methods
Analysis Methods are the tools used to analyze data. They can also be used during acquisition to define subsets of data or to set count gates. In InCyte, gating layout--plots and parameters, statistical setup, and all gates, regions, and markers are saved within the Method.
Every data set acquired in InCyte already has an associated Analysis Method, which was created or selected during acquisition. This is the case even if you do not perform any analysis during acquisition. This Method becomes part of the FCS file. Data acquired using any guavaSoft module other than InCyte, for example ExpressPro, will not have an Analysis Method associated with it. However, when you open the file in InCyte, a default Method will automatically be created.
While Methods are part of an InCyte-acquired FCS file, they can also be saved as separate files. To save an individual Method file, use the Save Method button in the Analysis Methods pane (see below). You can access a Method during analysis by opening the Method file (.gsy) or an FCS file and thus its associated Method. The saved Method file will contain only the regions, gates, metrics, and stats (if stats were derived). It will not contain instrument settings or data. Instrument settings are contained in the FCS file (data file and/or Analysed Group).
7 - 2 guava easyCyte HT System User's Guide

You can use the Duplicate Method icon to quickly create new Methods that are the same as the original Method. Then, modify the duplicated Method by a region or metric to create a similar analysis strategy.
Analysis Method containing a metric, gate list, and region list.
Duplicate a Method to modify the analysis by a metric, region, or gate.
Instrument Settings
Instrument settings are saved as part of the FCS file. You can also save instrument settings as a separate file (.gst). Instrument settings files contain all gains, thresholds, and compensation values.
Analysed Group
An Analysed Group is an FCS file that contains the sample data and the Method. It is created by pairing an FCS file with a Analysis Method. When data is acquired in InCyte, the software will automatically pair the data set and Method for analysis. If data were acquired in any other guavaSoft module, you will need to pair the data with a new or existing Method.
7.1 Introduction 7 - 3

7.2 InCyte Application Window
The application window opens displaying three plots. A tool bar at the left edge of the window allows you to access most of the application controls (see Figure 7-1). You can find these same options in the Tools menu in the menu bar.
The control panel displays the controls for acquiring and analyzing data. Click Analyse or Acquire to display the desired control panel. Click in the top bar (above the Analyse and Acquire buttons) to drag the floating control panel to any area of the screen or dock it on the right side of the window. To redock it on the left, double-click the top bar. To hide the control panel, click the X in the top-right corner. To redisplay the panel, choose Tools > Show/Hide Acquisition Controls from the menu bar, or click the Acquisition Controls icon in the tool bar on the left edge of the application window. Place your cursor over any button in the Analyse or Acquire button panel to see text describing the button.
Menu bar Switch between Acquire and Analyse control panels Button panel
Tool bar
Displays real-time acquisition parameters

Plate map Figure 7-1 InCyte application window Acquisition screen

Plot tool bar

7 - 4 guava easyCyte HT System User's Guide

Control Panels
To move between acquisition and analysis, click the Acquire and Analyse buttons at the top of the control panel.

Acquire Control Panel

Acquisition Buttons Place the cursor over the icon to display text describing the button. Sample Info
· Sample ID: Displays the Sample ID for the individual sample. Defaults to the plate well number.
· Sample No: Displays the sample #. This number defaults to 1 and advances at the completion of sample acquisition.
· Total count: Displays the number of events to acquire. The default is 5000. Total count changes to Gated count if you apply a count gate.
· Count Gate allows you to select a gate used as a counting gate. All events above the threshold are saved to the file whether they are in the gate or not.
· % Acquired: A progress bar provides an estimate of the target event count during acquisition.
· Conc.: Displays the cells/µL that have exceeded the threshold.
· Flow Rate: Displays the flow rate selected during the adjust settings step (µL/s).
· Volume: Displays the sample volume that is acquired.
· Clear Events: Click to clear the display and restart acquisition during adjust settings.

Acquisition Buttons Place the cursor over the icon to display text describing the button

Edit WL* Start WL* Pause/Resume WL* Next Step

Stop WL* Eject Tray

Adjust Settings
*Worklist

Retrieve Settings Save Settings Capillary Cleaning Tools

Abort WL*

7.2 InCyte Application Window 7 - 5

Analyse Control Panel

Analysis Buttons Place the cursor over the icon to display text describing the button. The buttons have the same function for each pane but apply specifically to that pane.

New

Open

Save

Duplicate

Delete

Data Displays the open data files, as well as any user-created subsets of these files or groups and allows you to select a data set or group for analysis.
Analysis Methods Displays the Analysis Methods for the current experiment. Each Analysis Method contains a gate list, a region list, and a metric (statistical parameter). InCyte-acquired files contain Methods. For data files acquired using a program other than InCyte, you must create a new Method or open an existing Method before you can perform analysis.
Analyzed Data Displays the FCS file and the associated Method. Created by pairing a non-InCyteacquired data file with a new or existing Method during analysis, or created automatically during acquisition using InCyte.

Tool Bar
The tool bar appearing on the far left side of the window provides additional features for acquisition and analysis. The features are also accessible from the Tools menu. Other than the Pie Legend, which is described on page 7-10, the tools are described in detail at the point in the workflow where they are used.
Event Log Show/Hide Acquisition Controls Region List Gate List Show Current Run Stats Show Group Stats Show Instrument Settings Show Compensation Controls Show Pie Legend Show Sample Info Show Gain Controls Show Miscellaneous Controls

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Plots
Use the Plot menu in the menu bar to set up the plot layout. Select the number of plots to display (2x2 to 5x5 represents the number of plots displayed down vs across). Up to 24 plots can be displayed at one time.

Plot Tool Bar

A tool bar is located to the right of each plot.

· Use the Undock icon to detach and enlarge the plot. The plot will detach in its own floating window on top of the application window. Drag the bottom-right corner to increase the size of the plot window. To reattach the plot, click the undock icon again or the X in the top-right corner.
· Use the Plot type icon to select Dot Plot, Histogram, or Contour Plot, and to adjust settings such as smoothing histograms and contours and selecting the dots to display in dot plots. Contour plots can be used only during analysis. See "Changing the Display of Data in Plots" on page 7-8 for information.

Undock
Plot type
New region Plot gate New Stat Marker Edit overlay list (histograms only) Zoom

· Use the New region and Plot gate icons to create regions and apply gates, respectively. See "7.5 Regions, Gates, and Statistics" on page 725.

· New Stat Marker is described in "Stat Markers" on page 7-32. Edit overlay list is described in "Overlaying Histograms" on page 7-54.

· To change the plot parameters once data is displayed, click the parameter name and select the new parameter from the pop-up menu. To customize a parameter name, see "Changing Parameter Names" on page 7-9.

· To copy a plot to the clipboard, right-click the plot and select Copy Plot to Clipboard.

· Use the Zoom icon to zoom an area of the plot. Click and drag a rectangle in any direction to encompass the population you wish to zoom in on. To scroll the data in the plot, click the icon, then hold down the Shift key while you click and drag. To unzoom, click the Zoom icon again, then press and hold the Ctrl key while you click anywhere in the plot.

7.2 InCyte Application Window 7 - 7

Changing the Display of Data in Plots
You can make the following changes to the display of data in these plots. The settings are saved with the Analysed Group. Click the Plot Type icon in the plot tool bar and select Plot Settings. · Set the number of dots displayed in a dot plot
Use the slider to set the number of dots from 1 to 100%. The default is 100%.
· Smooth histograms Click the Plot Type icon in the plot tool bar and select Plot Settings. Use the slider to set the amount of smoothing (sigma) from 0 to 5.0, where 0 is no smoothing. The default is 1.5.
· Smooth contour plots Click the Plot Type icon in the plot tool bar and select Plot Settings. You can adjust both the number of levels from 5 to 20, and the amount of smoothing (sigma) from 0
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to 5.0, where 0 is no smoothing. The defaults are 10 and 1.5, respectively. Contour plots can be created during analysis only.
Changing Parameter Names
You can change the default long (or stain) name of any parameter. The short name, for example, GRN-HLog, is fixed and will still appear in the plots and in parentheses after the new long name. 1 Choose Application > Change Parameter Names
from the menu bar. The Parameter Names dialog box appears. Area and width are listed only if they were selected during the adjust settings step prior to acquisition. 2 Double-click the existing name in the Long or Stain Name text field and type in the new name, or use the tab key to highlight the desired field and begin typing the new name. The short name will appear in parentheses following the long name under the plot. 3 Click Update.
7.2 InCyte Application Window 7 - 9

Pie Legend

The Pie Legend contains the HeatMap legend and the IC-50 application. The HeatMap legend (circle) is used to display the data results for each Analysed Group (data + Method) in the plate map. Use the Show Pie Legend icon in the tool bar to display this workspace.

The HeatMap legend shows one sector by default. You can create up to six sectors for six experiments. Each sector will have a data file (or group) paired with an Analysis Method. To divide the legend into multiple sectors click N=2, 3, etc. To clear a sector, right-click it and select Clear Sector. For more information on Heatmapping, see "7.7 HeatMap" on page 7-45.

Show Pie Legend

Select the number of sectors to display.

Drag and drop a data file (or group) and an Analysis Method to the HeatMap legend for analysis.
Click to change the display from single- to multi-sector display. Up to six sectors can be displayed.
Set minimum and/or maximum thresholds to eliminate data above and/or below the thresholds.
· N allows you to select the number of sectors you want to display. Sectors are numbered 1 to 6 with each new sector entering the upper-left portion of the circle.
· Threshold allows you to apply upper and/or lower limits on statistical values to eliminate data above or below the thresholds. The Current panel is only functional when one sector is being displayed, or when multiple sectors are used but the HeatMap legend is in single-mode display. See "Thresholds" on page 7-49 for more information.
· The IC-50 application allows you to rapidly convert time course or dose response studies into standard curves for the calculation of compound IC50/EC50 values. See "7.8 IC-50/EC-50" on page 7-50 for more information.
Exiting the Assay
Before quitting the software, be sure to save your current analysis using the Save Analysed Group icon in the Analysed Data pane.
1 To quit InCyte and return to the guavaSoft main menu, select Quit from the File menu.

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2 Select Yes in the confirmation dialog.
7.3 guava InCyte Sample Acquisition
To ensure optimal performance, allow the easyCyte HT System to warm up for 10 minutes before acquiring samples. 1 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop. 2 Click InCyte from your list of Favorites, or select InCyte from the Program Search list
and click Launch. If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. The guava InCyte window opens in Acquisition mode, if the easyCyte instrument is turned on. The top portion of the control panel contains 11 buttons used to control acquisition, obtain and save instrument settings, select cleaning options, and eject the tray. For information on the control panel, refer to "Control Panels" on page 7-5.
NOTE: If you go to Acquisition following analysis of a previous data set, all the plots,
regions, and gates remain from the analysis. The regions and gates will be cleared (or updated) when you select a Method for the acquisition.
7.3 guava InCyte Sample Acquisition 7 - 11

3 Prepare samples for acquisition in a microplate or tubes. 4 Click the Edit Worklist button, the first in the button panel, or select Worklist Editor
from the Application menu to open Worklist Editor and define the worklist parameters. You can also click the Start Worklist button, to open an existing worklist. Then choose between opening a saved worklist or running the currently loaded worklist. InCyte worklists are .xml files. If you are opening an existing worklist, proceed to step 6.
NOTE: If you have a saved worklist, you can click Open from the Worklist Editor
screen, select the worklist file, then click Run Worklist. The tray ejects and a dialog box appears prompting you to enter a data set file name. Proceed to step 6.
5 Define the worklist parameters in WorkList Editor software and click Run Worklist. See "Creating a Worklist" on page 1-29 for more information on setting up a worklist. When you start a worklist, the sample tray ejects. A dialog box appears prompting you to enter a data set file name.
WARNING: Keep the area in front of the tray clear as the tray ejects.
6 Select the folder where you want to save the data file and enter a file name. Click Save. The FCS data file contains all components of the acquisition--data, Method, and Analysed Group. (InCyte automatically pairs the Method with the data file and creates an Analysed Group at the completion of acquisition.)
NOTE: Always save guavaSoft data files directly to the system's hard drive during
acquisition. Saving data to a network or location other than the computer's hard drive
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may result in data loss. You may copy the files to another location when acquisition is complete.
Enter a file name for this data set and click Save.
7 A dialog box appears prompting you for an Analysis Method. Every data set acquired in InCyte has an Analysis Method associated with it. · To open a saved Method from a saved InCyte FCS file (data or Analysed Group) or a separate saved Method (.gsy) file, click Retrieve, locate the file, then click Open. If you select an FCS file to obtain the Method, a dialog box appears prompting you to also retrieve the instrument settings that were saved with the FCS file.
NOTE: An FCS file created using a version of InCyte before 2.0 will not contain
instrument settings. · If you are not retrieving a data file or saved Method, click New in the Analysis
Method window to create a new Method. Click OK. You cannot rename a new method at this time. During analysis, you may save the Method with a new name.
NOTE: If you open a new Method or a saved Method file (.gsy), which will not
contain instrument settings, you can retrieve any saved instrument settings when you select the sample for the adjust settings step (see step 10 on page 7-15). If you cancel out of the Analysis Method dialog box, the worklist is aborted.
Retrieve the instrument settings from the selected FCS file.
Displays Methods used during the current InCyte session.
7.3 guava InCyte Sample Acquisition 7 - 13

A dialog box appears prompting you to load your samples.

8 Place the microplate or tubes, as well as the cleaning tubes in the tray. Make sure well A1 of the plate is in the top-right corner.
Load the following 1.5-mL microcentrifuge tubes in these positions: · Load tubes containing 1.5 mL of water in positions w2, w4, and w5 (for Quick
Clean and washing the capillary and mixer).
IMPORTANT: Ensure that the tube in position w4 (for Quick Clean) is filled with water.
· Load empty tubes in positions w3 and w6 (for spinning/drying the mixer). · Load a tube containing 100 µL of bleach in position w1 (for a backflush) to disinfect
material deposited from a backflush. · Load a tube containing 1.5 mL of ICF in position 10 for Clean & Rinse.

WW E BW E
ICF

Tubes containing: W - water E - empty B - bleach ICF - Instrument Cleaning Fluid

Place plate so that well A1 is at top-right corner.

9 Click OK in the Load Samples dialog box after you are finished loading samples and cleaning tubes to load the sample tray.
WARNING: Keep the area clear as the tray loads.
WARNING: Always use the Eject Tray button in the InCyte software module to open
the door. Click Pause first, if necessary. Never open the door with your fingers.

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Adjusting Instrument Settings

10 A dialog box appears prompting you to select the sample for adjusting settings.
· Before selecting the sample, if you opened a new Method or a saved Method file (.gsy), you may wish to retrieve instrument settings at this point. Click Retrieve Settings, locate the settings file (.gst), and click Open. A message appears indicating that settings were successfully retrieved.
NOTE: If you wish to save instrument settings later, use
the Save Settings icon in the acquisition button panel.
· After retrieving the settings, click to select the well or tube (19) used to adjust settings, then click OK. We recommend using a stained negative or isotype control sample for the initial adjustments.

11 Check the Conc (Cells/µL) value in the Sample Info pane and ensure that it is less than or equal to 500.
NOTE: If the value is greater than the high limit for the corresponding flow rate, click
the Next Step icon in the button panel, then Eject Tray. Dilute the sample with the appropriate buffer to lower the concentration and minimize the risk of coincident events. For optimal performance, we recommend a concentration of 250 cells/µL or lower. Click Load Tray, then Adjust Settings.

12 Set up the type of plots and parameters you wish to display. If you retrieved a Method, the plots are configured with the regions and gates defined in that Method. Modifications may be necessary to accommodate the new data. For more information on plots, see "Plots" on page 7-7.

13 To fine tune the settings, you can make the following adjustments using the Gain, Compensation, and Miscellaneous Controls. Open each instrument adjustment window using the Tools menu or the last three icons in the tool bar (left edge of the application window). If necessary, click the window's title bar to drag the window to a new location.

Compensation Controls
Gain Controls Miscellaneous Controls

· Use the Miscellaneous Controls to set the Flow Rate to Very Low (0.12), Low (0.24 µL/s), Medium (0.59 µL/s), or High (1.2 µL/s). The default flow rate is Medium. Set the Refresh Rate to the maximum number of events (1005000) you want to display.

NOTE: If you change the flow rate during the adjust settings step, we recommend
that you repeat the adjust settings step at the new flow rate to ensure that the markers and threshold are set correctly.

· If you wish to save area and width measurements for a specific parameter, select the parameter from the Area/Width Parameter menu. Use the Area and/or Width Scaling Control sliders to reduce or amplify the signal so that the cells are visible and on scale.

7.3 guava InCyte Sample Acquisition 7 - 15

· If you wish to save a time parameter, use the Time Scaling Control slider to set the maximum acquisition time, then click OK. Adjust the y-axis (count) scale, if necessary.
· Use the Gain Controls to select the Threshold parameter from the drop-down menu.
· Use the Gain Controls to adjust the gains (using the FSC, SSC, GRN, YEL, RED, NIR, RED2, or NIR2 sliders or the arrow keys on the keyboard) to a value from 1 to 1024. You can also type a numerical value in any of the Gain text boxes to adjust the settings. Adjust so that the negative population (or isotype) is positioned in the lower-left corner of the fluorescence plot and the cells are evenly distributed in the lower-left quadrant. Start from a lower gain setting and gradually increase the value. For greater detection and sensitivity across a broad range of fluorescence, the overall gain range can be adjusted using the High check box. By default, all boxes are checked. If further adjustment is needed, remove the checks from the High Calibration check boxes and allow the gain to stabilize for 2 to 5 seconds.
NOTE: Use the Clear Events button in the Sample Info panel to clear the display.
· To acquire 5 log decades, select 5 decade Acquisition. · Select Blue laser only if the red laser is not needed for your application and you
wish to turn it off. The checkbox is only available for instruments equipped with a red laser. For information on the supported instruments and the laser required to detect each parameter, see "easyCyte HT Lasers and Parameters" on page 11-2. · To adjust the threshold, use the slider or click and drag the threshold marker (dotted red line) up or down the axis of the dot plot displaying the threshold parameter until the desired amount of debris or other unwanted events are eliminated below the
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threshold. You can also enter a numerical value in the text box and press Enter on the keyboard.
· To adjust compensation, click the Next Step button, then Adjust Settings, then select the location of a positive control sample, and click OK. You may want to adjust each compensation setting individually using single-stained controls. Use the Compensation Controls to select the radio button for the parameter you wish to subtract, then use the slider to define the percentage of the overlapping signal to be removed from the detector. For more details on specific compensation adjustments and examples, see "Performing Compensation During Acquisition" on page 7-39.
14 You may set regions and gates prior to acquiring the samples. Refer to "7.5 Regions, Gates, and Statistics" on page 7-25 for information. If you wish to apply a count gate, create and define the gate, then select it from the Count Gate drop-down menu under Sample Info. You can select the count gate from the Adjust Settings screen only. You can also view real-time statistics during the adjust settings step. See "Stat Markers" on page 7-32 for information on creating stat markers and viewing the realtime statistics.
15 When you are finished adjusting settings, click the Next Step button. If necessary, you can repeat the adjust settings step to ensure that other samples (such as another positive control) are on scale, appropriately positioned, and
7.3 guava InCyte Sample Acquisition 7 - 17

compensated, by clicking Adjust Settings, then indicating the location of the sample, and clicking OK. If you wish to save the instrument settings, click the Save Settings icon in the control panel. Enter a file name and click Save to save a .gst file. Once the worklist is complete you can no longer save instrument settings. 16 Click the Resume Worklist button. The system acquires the first sample.
ACQUISITION NOTES
· You may click the Pause Worklist button at any time during the run to select Eject Tray or Capillary Cleaning Tools then select Backflush, Clean & Rinse, or Quick Clean. The system will complete the current step before pausing. Click Resume Worklist to continue.
· If you wish to adjust the instrument settings during the run, click Pause Worklist, then Adjust Settings. When the settings are set, click Next Step, then Resume Worklist.
· The % Acquired progress bar provides an estimate of the target event count during the acquisition period, which times out after 1.75 minutes (high flow rate), 3.5 minutes (medium flow rate), 7 minutes (low flow rate), or 10 minutes (very low flow rate).
· The plate map in the control panel provides a visual status of acquisition. The well currently being acquired appears with an open blue circle. Wells acquired appear as a solid blue circle.
The system automatically performs a Quick Clean or a Clean & Rinse at the end of the assay.
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At the completion of a worklist, a copy of the Data, Method, and AnalysedGoup are automatically loaded into the Analysis control panel. InCyte saves the data for all sample wells as a single FCS 3.0 file to the specified location. The FCS file contains: · the acquired data for all tubes and wells in the run · the Method (plots, regions, gates, and metrics, if applicable) · an Analysed Group (the data paired with the Method) · instrument settings (gains, compensation, miscellaneous settings)
7.4 guava InCyte Analysis
InCyte Software allows you to open and analyze any guava FCS 3.0 data file, regardless of the software module used for acquisition. An analysis-only version of InCyte 2.7 is available for MacOS 10.6 and later. See the readme file for more information and details on where to go to download the software.
NOTE: InCyte does not allow you to analyze data from replicates.
You can proceed to analysis from the acquisition screen.
The Analysis Panes
Click the Analyse button at the top of the control panel to access the Analysis screen. If you click Analyse from the Acquisition screen after acquiring a sample, the data from the last sample acquired is displayed.
Tool bar
Analysis control panel: · Data pane · Analysis Methods pane · Analysed Data pane
Plate map
Figure 7-2 InCyte application window Analysis screen
The Analyse control panel provides a working outline for each analysis session. It contains three panes--the Data, Analysis Methods, and Analysed Data. An FCS file generated using InCyte will automatically contain all three elements.
7.4 guava InCyte Analysis 7 - 19

· The Data pane lists all open FCS files, as well as any groups (FCS file subsets) created. For more information on groups, see "Creating a Group" on page 7-52.
· The Analysis Methods pane contains all Method(s), each comprised of its associated plots, regions, gates, and metrics. Methods can be thought of as gating strategies. Before you can analyze a data file(s) from a guava assay other than InCyte, you must create an Analysis Method. Files acquired with InCyte already have Methods associated with them.
· The Analysed Data pane lists all user-defined Analysed Groups. Analysed Groups are created by pairing the data file with Method--each consisting of a data file (or group) with its associated Method. When you close an Analysed Group, the associated FCS file and Method will close automatically.
Place your cursor over an icon in any of the three panes to see text describing the icon . For more information on the control panels, see "Control Panels"
on page 7-5.

Plots
The plots area of the window displays three plots by default. Use the Plots menu to change the number of plots displayed. Use the tool bar on the right to change the plot type and set regions and gates. For more information on plots, see "Plots" on page 7-7.

Undock Plot type New Region Plot gate New Stat Marker Edit Overlay List Zoom

Analyzing Files Acquired Using InCyte
Data files acquired using InCyte will already have the necessary components for each of the three Analysis panes--the data file, the Method, and the Analysed Group. Simply open the FCS file.
During analysis, the original FCS file and any analysis settings (plots, parameters, gates) will not be affected. If you wish to save any changes to the newly analyzed InCyte file, simply resave the file using the Analysed Data pane (Save Analysed Group button).
You can proceed to analysis from the acquisition screen.
NOTE: If you open and analyze multiple files within a session, all the FCS data files,
Methods, and Analysed Groups will remain in the panes from all file that were opened. If they have already been saved, you can remove them from the pane by selecting the item and clicking the Delete icon at the bottom of that pane.
1 From the Analyse screen, choose File > Open from the menu bar. Select an FCS file for analysis and click Open. You can also use the Open Group icon in the Data pane

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or the Open Analysed Group icon in the Analysed Data pane. You can also drag and drop an FCS file from a folder to the Data pane.
The data for the first sample well appears. For information on selecting the number and type of plots (dot plot, histogram, or contour plot) you wish to display, and changing the plot parameters, see "Plots" on page 7-7. If you acquired tubes, click the icon in the upper-left corner of the plate map to display the tube map.
Click icon to toggle between plate map and tube map.
If you acquired samples from both tubes and plates, use the icon to switch between the tube map and plate map to view the analyzed data for specific samples.
7.4 guava InCyte Analysis 7 - 21

Click the + to the left of the data file name to display a list of all sample wells and tubes contained in the file. All wells with acquired data appear as open circles in the corresponding locations in the plate map.
Toggle between tubes and plate. Click well to display data.
Clicking on a sample in the Data pane will display the unanalyzed data for that sample in the plots, however the information in the plate map will be lost. Click on the Analysed Group to redisplay the information in the plate map. If the data is already analyzed, click on the individual wells in the plate map to display the analyzed data for that well in the plots, or use the arrow keys to quickly scroll through the wells, displaying the data.
NOTE: If you wish to create groups of samples for analysis, see "Creating a Group" on
page 7-52. To rename the Method, double-click it and enter a new name related to this analysis. 2 You are now ready to start customizing your Analysis Method using regions and gates. Refer to "7.5 Regions, Gates, and Statistics" on page 7-25.
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Analyzing Files Acquired Using Other Guava Software Modules
1 From the analysis pane, choose File > Open from the menu bar. Select an FCS file for analysis and click Open. You can also use the Open Group icon in the Data pane or the Open Analysed Group icon in the Analysed Data pane. You can also drag and drop an FCS file from a folder to the Data pane.
The data for the first sample well appears. For information on selecting the number and type of plots (dot plot, histogram, or contour plot) you wish to display, and changing the plot parameters, see "Plots" on page 7-7. Click the + to the left of the data file name to display a list of all sample wells and tubes contained in the file. All wells with acquired data appear as open circles in the corresponding locations in the plate map. Data for any well can be displayed in the plots by selecting the sample from the file list or clicking on a well in the plate map.
2 When a data file is generated in a Guava software module other than InCyte, InCyte will automatically create a default Analysis Method and Analysed Group for the data file/set. The Method will contain a percent (%) metric, initially. If you wish to open an existing Method use the Open Method icon. Method files have the extension .gsy.
7.4 guava InCyte Analysis 7 - 23

For more information on Analysis Methods, see "Methods" on page 7-2. To rename the Method, double-click it and enter a new name related to this analysis.
Analysis Method containing a metric, gate list, and region list.
Click New Method to create a new Method.
3 If you opened an existing Method, you will need to drag it to the Analysed Group.
Data and Method are automatically paired to create an Analysed Group. If you open a saved Method, you will need to drag it to the Analysed Group.
Notice the sample wells in the plate map become dark blue (if the Method was newly created) or various shades of blue (if a previously defined Method is used). You can place the cursor over any well in the plate map to view results for that sample. Clicking on a sample in the Data pane will display the unanalyzed data for that sample in the plots, however the information in the plate map will be lost. Click on the Analysed Group to redisplay the information in the plate map. Click on the individual wells in the plate map to display the analyzed data for that well in the plots, or use the arrow keys to quickly scroll through the wells, displaying the data.
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NOTE: Any data file or Method file can be replaced by simply selecting it from the
respective pane and dragging to the Analyzed Group. This allows you to quickly interchange data files and Methods.
Analysed Group containing a data file and Analysis Method.
To save an Analysed Group, click on it in the Analysed Data pane to select it, then click the Save Analysed Group icon. Navigate to the location, enter a name, and click Save. The Analysed Group will be saved as an FCS file and will contain the Method (regions, gates, metrics, and stats) and the data. 4 You are now ready to start customizing your Analysis Method using regions and gates. Refer to "7.5 Regions, Gates, and Statistics" in the following section.
7.5 Regions, Gates, and Statistics
Regions
InCyte offers six types of regions/markers--ellipses, rectangles, octagons, polygons, and quadrant markers for dot plots, and histogram markers for histograms. All of the regions are created using either the New Region icon in the plot tool bar (see "Plots" on page 77), except the quadrant marker, or the New Stat Marker icon in the tool bar, which allows you to select statistics for the region/marker. For information on creating quadrants, refer to "Stat Markers" on page 7-32. A single Analysis Method can contain a maximum of 24 regions or stat markers, and you can have multiple stats per marker. InCyte regions are associated with the one (histogram) or two (dot plot) parameters in which they were created. If you change the x- or y-axis parameter on the plot, the region is no longer displayed. However, it is still contained within the Method. 1 Once an Analysed Group is created, by acquiring InCyte data or by dragging a data
file and a Method to the Analysed Group, click the New region icon in the plot tool bar and select a region from the pop-up menu. You are prompted to enter a region name. The default for the first region is R1. When creating a polygon, this dialog appears after you create the region.
7.5 Regions, Gates, and Statistics 7 - 25

2 Enter a name for the region and click OK. You may leave it R1, but a unique region name can be helpful in differentiating Analysis Methods. The newly created region appears on the plot with the region name. Click and drag the name to move it. The region is listed in the Region List under the Method and in the Region List table (Region List icon in the main tool bar or Tools > Show Region List). To delete a region, see "Region List" on page 7-27.
3 Adjust the region to encompass the data. Or, for a polygon, create the region. · To adjust an elliptic region, click anywhere on the edge of the ellipse, except on a handle, and drag it to a new location. The ellipse has two handles. The open circle allows you to narrow/widen the ellipse. The solid circle allows you to lengthen, as well as rotate the ellipse around a point opposite the solid circle.
· To adjust a rectangle region, click anywhere on the edge of the rectangle, except on a handle, and drag it to a new location. The rectangle has five handles. The open squares allow you to extend at the corresponding corner. The solid square allows you to rotate and resize.
· To adjust an octagonal region, click anywhere on the edge of the octagon, except on a handle, and drag it to a new location. The octagon has eight handles. Click and drag the handles to adjust the shape of the octagon. To add or remove segments, right-click on a handle and select Insert Line Segment or Delete Line Segment.
· To create a polygon region, click to add the first handle, then move the cursor to the next point and click. Continue creating up to 32 segments until the shape is complete. Finish by clicking again at the first handle to close it. To move it, click anywhere on the edge, except on a handle, and drag it to a new location. To adjust the shape, click and drag the handles. To resize or rotate, press the Shift key and click and drag a handle.
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· To adjust a histogram region, click either of the two handles. The histogram marker can be moved vertically as well as horizontally.
Region List
When you create a region, it appears in the Region List. To display the list, click the Region List icon in the tool bar or choose Tools > Show Region List. The Region List displays a list of all regions and quad stat markers (see page 7-32) in the selected Analysis Method, their region name, type, and the plot axes.
· To display all the columns in the Region List window, click Resize. · To delete a region from the plot, click to select it, then right-click and select Delete
Region. You can also select the region in the Region List window and click Delete. Click OK in the confirmation box. The region will be deleted from all associated plots. The region name in the Analysis Method will appear as ???.
Global and Local Region Adjustments
You can make adjustments to regions for specific samples within a data set. For example, you may wish to tweak a region for the data in one or more samples to compensate for a shift in the data. 1 To change a region for an individual sample, press and hold the Ctrl key while
manipulating the region (elliptic, rectangle, octagon, or histogram). To change the region for multiple samples, highlight the desired wells, then hold the Ctrl key while manipulating the region. The change will be applied to all the highlighted samples. The region will turn from red to black, indicating that it is a local region--it applies only to the sample data displayed in the plots.
NOTE: If you manipulate a global region without holding down the Ctrl key, the
change will automatically apply globally (to the data for all samples in the run). Once a local region is created: · if you have only one local region in the data set and you attempt to manipulate it
without holding down the Ctrl key, the change will become global and apply to all regions in the data set.
7.5 Regions, Gates, and Statistics 7 - 27

· If you have multiple local regions and you attempt to manipulate a single local or global region without holding down the Ctrl key, the following message appears.
· To apply the change to the region you are adjusting and all global regions, but keep any other local regions unchanged, click Keep Local.
· To apply the change to all samples in the run, click Make Global. · To cancel the change and not apply it to any regions, click Cancel. If you want to make an adjustment to a local region to manipulate it further, hold down the Ctrl key to keep the change local and not affect any other regions--local or global. After making a region local, you can still make adjustments to global regions without holding down the Ctrl key. When the dialog box appears, click Keep Local. The adjustment will apply to all global regions. The local regions will remain local and unchanged.
Gates
A gate can be as simple as a single region, or a complex combination of regions and multiple parameters. Gates allow you to further characterize and isolate populations based on the regions. A maximum of 32 gates can be created for one Analysis Method. You can create gates for analysis and/or acquisition. Count gates used during acquisition allow you to acquire specific populations of interest. All events above the threshold are saved to the file whether they are in the gate or not. However, the number of Events to Acquire is applied to events that fall within the gate.
Defining a Gate
The gating process has been simplified by dragging and dropping regions. Any region can be dragged from one plot to any other plot. This process allows you to create gates defined with the "AND" operator. You can also create gates using the OR and NOT operators. Refer to "Gate List" on page 7-30. 1 Click to select the region (handles appear), then click in the center of a region and
drag it to another plot. This "applies" the data within the boundaries of the region to the second plot. For example, if you created a region on live cells in plot 1 and drag the live-cell region to plot 2, only the live cells will be displayed in plot 2. A New Gate Name dialog box
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prompts you to rename the newly created gate. You can enter a more meaningful name or use the default.
NOTE: You can also define a gate by typing the regions and the operators AND,
OR, and NOT. Refer to "Gate List" on page 7-30. If the Analysis Method has gates already defined, you can also select a gate from the Plot gate menu in the plot tool bar.
Select the region, then drag it from one plot to another to apply a gate.
When you apply a gate, the following changes occur: · The events displayed in Plot 2 will automatically change to reflect only those
defined by the region that was dragged in. To view the ungated data again, click the Plot gate icon to the right of the plot and select <ungated>. · The color of the newly gated data will reflect the color of the gate defined in the Gate List window. The default color for the first gate is red. · The plot heading will reflect the gate applied (for example, Plot P01, gated on P02.R1). · The newly created gate will appear in the Analysis Methods pane under the Method, in the Gate List (see "Gate List" below), and the Plot gate pop-up menu to the right of the plot.
NOTE: Changes made to the position or size of any region(s) used to define a gate
will automatically be reflected in all plots gated by that region.
7.5 Regions, Gates, and Statistics 7 - 29

Gate List
When you create a gate, it appears in the Gate List. To display the list, click the Gate List icon in the tool bar or choose Tools > Show Gate List. The Gate List displays a list of all gates in the selected Analysis Method, their definition, and color.
· To display all the columns in the window, click Resize. · To delete a gate from the list, select the gate and click Delete. Click OK in the
confirmation box. · To change the gate color, double-click the color in the Color column. The
ColorPickerDialog appears. See "Changing the Color of Gated Data" on page 7-31 for information on using this dialog box to change the color. · You can turn a region into a gate by entering a name for the gate in the Name field and typing the region name (for example, R1) in the Definition field. · You can also define a gate using the operators AND, OR, and NOT. Create regions to identify the subpopulations of interest. Open the gate list and type an appropriate name for the gate. Type a definition, for example: · R1 AND R2 means the event must be in both the R1 and R2 regions to be included
in the gate. · R1 OR R2 means the event must be in either the R1 or R2 region to be included in
the gate. · R1 AND (NOT R2) can be used if R1 and R2 overlap and you want to include
events in R1 but not in R2. The gate can now be applied to any plot by clicking the Plot gate icon to the plot tool bar and selecting the gate from the list.
· The ColorGate box allows you to view a backgate. Start by creating a gate in one plot. Then, drag that gate to the plot interest. This applies the gate to the second plot and shows only the gated events. Select Tools > Show Gate List and check the ColorGate box for the gate. The gated events appear in both plots in the selected
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color. View the second plot without a gate (select <ungated> from the plot tool bar) to see the color gated events in relationship to all events.
A lymphocyte gate was created in the RED (CD3 PE-Cy5.5) vs SSC plot, then dragged to the YEL (CD14 PE) vs GRN (CD15 FITC) plot. Granulocyte and monocyte gates were created in the YEL vs GRN plot and dragged to the RED vs SSC plot. ColorGate checkboxes were selected for all gates to apply color to the gated events. All plots are viewed ungated to show all data and gated data in colors.
Changing the Color of Gated Data
You can change the color of data within a gate. Open the Gate List and double-click the color in the Color column to open the ColorPickerDialog. Use this dialog to change the color, hue, saturation, and brightness. 1 To change the color, click the RGB button and
use the sliders to adjust each color. Or, click to select a color in the outer circle. Drag the pointer to change the color. 2 To adjust the hue, saturation, or brightness, click the HSB button and use the sliders to make the appropriate adjustments. Or, click a shade in the inner triangle. 3 Click OK when you are finished.
7.5 Regions, Gates, and Statistics 7 - 31

Stat Markers
The Stats feature allows you to derive, display, and export statistics for single wells, groups, or whole data sets. Each stat is derived from a region/marker. Stats can be assigned to existing regions, or new regions can be created. A single Analysis Method can contain a maximum of 24 regions/markers. 1 Click the New Stat Marker icon in the plot tool bar and select the appropriate option.
You can obtain statistics for any existing regions in the plot. Or, you can create a new region and obtain statistics for that region. · Select New Elliptic/Rectangle/Octagonal/Quad/Histogram Stat Marker to add a
new region and obtain stats for it. Histogram Stats appear only in a histogram plot. · Select New Stat for R1 (or name of existing region) to obtain stats for an existing
region. · Select New Expression Stat to create an expression statistic. See "Creating
Expression Statistics" on page 7-35. · Select Show Stat Setup to display the Current Run Stats. See "Current Run Stats
Window" in the following section. · Select Edit Plot Corner Labels to add custom labels to your plots. See "Labeling
Plot Corners" on page 7-37.
The Add New Stat Marker window appears for the stat type you selected. The default base stat name is the same as the gate name. Base stat implies it is the base name
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before you select a specific metric (stat), then the stat name becomes BaseStatName.Count, for example.
If a stat with the default name already exists, the field will appear red. You must enter a new stat name.
2 Select the metric--Count, Concentration, Percent, %CV, Mean, and/or Median. 3 For quad stats only, select the quad region(s) of interest. Select Show on plot if you
wish to see the stat for each quadrant appear in the corners of the plot. If multiple parameters are selected, the count appears by default. Quadrant markers will appear on the plot after you click OK. 4 Click OK. The Current Run Stats window (see below) appears with the newly created stat. The value listed corresponds to the sample well highlighted in the plate map. Each stat is automatically applied to all sample wells in a given data set. To see the results for any well, click on the well in the plate map. If you adjust the marker/region or any region that is part of the gating strategy, the statistics are automatically updated. To adjust quadrant markers, click to select the markers. The handles will appear solid. Position the cursor over the handle at the intersection and drag to the desired location. You can adjust the angle of the markers ±44° from their original locations. Drag the handle (solid circle) towards the end of the marker and tilt it to the desired location.
7.5 Regions, Gates, and Statistics 7 - 33

Current Run Stats Window
The Current Run Stats window appears when you create a stat. You can also click the Show Current Run Stats icon in the main tool bar or select Tools > Show Current Run Stats from the menu bar to display the window. For each Analysis Method, all stats for all plots are listed in this window. The Values displayed correspond to the sample well highlighted in the plate map. Simply click any well to see the values for that sample. Stats are listed in the order they were created. To reorder the stats in the list, see "Current Run Stats Setup Window" on page 7-34.
For each Analysis Method, all stat markers are listed in the Region List, as well as the Analysis Methods pane. All stats are saved with the Method.

customize statistics
· Click Setup to customize the stats listed in the Current Run Stats window. · Click Print Stats to print the statistics listed in the table. · To copy the window to the clipboard, right-click in the window and select Copy to
Clipboard.
Current Run Stats Setup Window
To customize the statistics that are listed in the Current Run Stats window, click Setup. The Current Run Stats Setup window appears.

Click the box to the far left and drag the row up or down in the list.

Click check mark to remove a column from the Current Run Stats window.

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· To change the Stat Name, double-click the name and enter a new name. To change the metric, gate, quadrant, marker name, or parameter, double-click the item and select the new one from the drop-down list. Expression stats cannot be modified. They can only be deleted.
NOTE: If you wish to change the parameter, double-click to display the parameters
for that plot. If you wish to see all available parameters for the data set, press Ctrl and double-click the parameter value. For a parameter to be displayed, you must select it in the Add New Stat Marker dialog. · To remove a column, remove the "Show" check mark for the selected parameter(s) and click Done. The Current Run Stats window is updated. · To reorder the rows and/or columns in the Current Run Stats Setup window, click the column header and drag the column to the left or right. You cannot move the Stat Name or Value column. They are fixed. · You can also create stats directly from the Current Run Stats Setup window. Click Add New Stat to display the Add New Stat Marker window. This window is similar to the window that appears when you select Show Stat Setup from the New Stat Marker icon in the plot tool bar (see page 7-32). However, this stat marker window allows you to create a stat independent of a plot and based on any gate. Enter a stat name; select the marker/region, gate, parameter, and metric, and click OK. · To create an expression, click Add New Expression (see "Creating Expression Statistics" in the following section). · To delete a stat, select the stat from the list and click Delete.
Creating Expression Statistics
Expression stats allow you to create custom statistics. For example, you can apply the dilution factor to a count or concentration value of a specific population to get the actual value for your diluted sample. Or, you can create an expression statistic that adds the events in two quadrants of quad markers. 1 Create statistics as you normally would.
2 Click the New Stat Marker icon in the plot tool bar and select New Expression Stat.
3 Enter a stat name for the expression.
7.5 Regions, Gates, and Statistics 7 - 35

4 Right-click in the Expression area of the window and select the stat. Type an operator (+, , *, /, or ^ for exponentiation). Complete the expression.
NOTE: To create an expression for a specific well/tube, press Ctrl and right-click the
Expression area. The pop-up menu allows you to select a specific tube or well. The following example shows an expression created to apply the dilution factor of 20 to events in the upper-left quadrant of a plot.
Right-click and select the statistic to build the expression. Enter the appropriate operator, and continue building expression.
5 Click OK. The expression appears in the Current Run Stats window.
6 Click the Show Sample Info icon in the tool bar to the left of the data panes to open the sample information window. Enter the dilution factor for the sample and press Enter.
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7 The updated concentration value, based on the new dilution factor, appears in the Current Run Stats window.
Labeling Plot Corners
You can add custom labels to the corners of any plots. Default labels already appear in plots with quadrant markers, if you select Show on plot when setting up the quadrant using the New Quad Stat Marker option. 1 Click the New Stat Marker icon in the plot tool bar and select Edit Plot Corner
Labels. The Edit Plot Corner Labels dialog appears.
Labels for quadrants.
2 If you are adding labels to a plot with quadrant markers, click the default [count] label and type a new label. If you are adding labels to a plot without quadrant markers, simply type the label in the corresponding box.
3 Click OK. The labels appear in the corners of the plot.
7.5 Regions, Gates, and Statistics 7 - 37

Group Stats Window
The Group Stats window displays the statistical values for all samples in the data set (or group). To display the Group Stats window, click the Show Group Stats icon in the main tool bar or select Tools > Show Group Stats from the menu bar.
· Click Setup to customize the stats listed in the Group Stats window. · Click Export To CSV to export the group stats to a comma-separated values file for
analysis using a spreadsheet program. Select the location, enter a file name, and click Save. · Click Print Stats to print the statistics listed in the table. · To copy the window to the clipboard, right-click in the window and select Copy to Clipboard.
Group Stats Setup Window
To customize the statistics that are listed in the Group Stats window, click Setup. The Group Stats Setup window appears. To remove a column, remove the "Show" check mark for the selected parameter(s) and click Done. The Group Stats window is updated. You can reorder the rows by clicking the far-left box of the row and dragging the row up or down.
To reorder the rows, click the box to the far left of the row and drag the row up or down in the list.
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Exporting guava InCyte Results to a Spreadsheet File
For each Analysed Group, you can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel. The CSV file will contain the following statistics: Group name, Stat Type, Parameter, Stat gate, Control gate, Log Display, Max, Threshold Max%, Threshold Max, Threshold Min%, Threshold Min. In addition, each sample well will include a derived statistical value, its unit of measurement, a control well (if applicable), the well's sample ID, and the FCS 3.0 file from which it was derived. 1 Right-click on any well and select Export Heatmap Stats to CSV.
If the HeatMap legend is divided into multiple sectors, then data from each sector will be exported. If you wish to export results for a single sector (or Analysed Group), first click on the specific sector in the legend, then right-click the well and select Export Heatmap Stats to CSV. To export the group stats to a CSV file, refer to "Group Stats Window" on page 7-38.
NOTE: You can copy and save any of the plots, HeatMap, or IC-50 graphs by right-
clicking, then selecting Copy To Clipboard.
7.6 Compensation
This section provides details on specific compensation adjustments for your stained samples during acquisition. It also includes information on performing post-acquisition compensation and automated compensation on data files acquired with ExpressPlus, ExpressPro, and InCyte only.
Performing Compensation During Acquisition
Use the Compensation Controls to select the radio button for the signal you wish to subtract, then use the slider to adjust the percentage of the overlapping signal to be removed from the detector/channel. For example, if using FITC (GRN) and PE (YEL) fluorochromes: 1 Click the Show Compensation Controls icon in the tool bar to open the
Compensation Controls window.
2 Using a FITC single-color control, select the % GRN radio button under Dye. Then adjust the YEL slider to remove the FITC signal from the YEL channel (YEL%GRN).
7.6 Compensation 7 - 39

3 Next, using the PE single-color control, select the % YEL button, and adjust the GRN slider to remove the PE signal from the GRN channel (GRN%YEL).
NOTE: The Controls at the left
of the window are for semiautomated compensation only.

You must check the compensation for each fluorochrome combination you are using. Compensation settings are correct when the center of the stained population is aligned with the center isotype or negative control population. Avoid having too many cells touching the axis (overcompensated).

NOTE: Some fluorochromes require very little compensation because they have little
overlap, such as PE into the GRN channel (GRN%YEL), as shown in the first three plots below; whereas others require much more compensation because they have more overlap, such as FITC into the YEL channel (YEL%GRN), as shown in the last three plots below.

No Compensation

Correct Compensation

Over Compensation

GRN-Log

YEL-Log
GRN%YEL FITC Single-color stained cells

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No Compensation

Correct Compensation

Over Compensation

GRN-Log

YEL-Log
YEL%GRN PE Single-color stained cells
Performing Post-Acquisition Compensation
InCyte allows you to perform post-acquisition compensation on data files acquired using software modules that have the compensation feature and allow you to adjust compensation during acquisition, such as ExpressPlus, ExpressPro, and InCyte.
NOTE: You can adjust compensation only; you cannot adjust gain settings.
1 To adjust compensation, open the FCS file from the Analyse control panel and set up the plots. We recommend using single-color samples, then checking the compensation again with a sample stained with all fluorochromes to fine-tune, if necessary.
2 Click the Show Compensation Controls icon in the tool bar to open the Compensation Controls window.
3 Select the radio button for the signal you wish to subtract, then use the slider to adjust the percentage of the overlapping signal to be removed from the detector. For example, to remove the FITC signal from the YEL detector, select the %GRN radio button and adjust the YEL slide (YEL%GRN).

7.6 Compensation 7 - 41

4 Repeat for the remaining compensation adjustments for your samples.
NOTE: The Controls at the
left of the window are for semi-automated compensation only.
Settings are applied to all samples in the data set, as well as all groups derived from the data set. Adjustments made to a sample within a group, are applied to all samples in the originating data file.
Performing Semi-automated Compensation
InCyte allows you to perform semi-automated compensation on data files acquired using software modules that have the compensation feature and allow you to adjust compensation during acquisition, such as ExpressPlus, ExpressPro, and InCyte. You must have acquired single-color control samples to use the semi-automated compensation feature.
NOTE: You can adjust compensation only; you cannot adjust gain settings.
1 To adjust compensation, open the FCS file from the Analyse control panel and set up the plots. W recommend using single-color samples, then checking the compensation again with a sample stained with all fluorochromes to fine-tune, if necessary.
2 Click the Show Compensation Controls icon in the main tool bar to open the Compensation Controls window. This window is specific for compensation during analysis. It contains a slider for each parameter and a list of controls in the far left panel. These controls correspond to each parameter and the fluorochrome used: · green square is the GRN channel · yellow square is the YEL channel · 1st red square is the RED channel from the blue laser · 1st brown square is the NIR channel from the blue laser · 2nd red square is the RED2 channel from the red laser · 2nd brown square is the NIR2 channel from the red laser · black square is negative or isotype
NOTE: If it is necessary to gate the data, pair a Method with the data file to create an
Analysed Group and set regions and gates. Refer to "7.5 Regions, Gates, and Statistics" on page 7-25. Otherwise, it is not necessary to create an Analysed Group
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to adjust post-acquisition compensation.
Click to begin.
3 Click Setup in the Compensation Controls window. The application screen changes to display two dot plots on the left with the plate map below, and up to six histograms for each fluorescence channel.
4 Adjust the default region in plot 1 so that it encompasses the events of interest. 5 Drag the isotype (or negative) control from the plate map to the black square at the far
left in Compensation Controls window 6 Drag the next control, for example the GRN control (FITC-positive control) from the
plate map to the green square at the far left in the Compensation Controls window (see example in figure below). For this example, the green square turns into a circle and the FITC control data is displayed in the GRN histogram.
7.6 Compensation 7 - 43

7 Adjust the GRN histogram marker to include the positive population.
Drag
8 Drag the next control, for example YEL control (PE-positive control) to the yellow square. Continue dragging the remaining controls to the corresponding Controls squares and adjusting the markers to include the positive population.
9 Check that the markers are correct for the isotype control. 10 Click Auto. The software automatically calculates the compensation values for each
parameter. Settings are applied to all samples in the data set, as well as all groups derived from the data set. Adjustments made to a sample within a group are applied to all samples in the originating data file. 11 If you need to adjust compensation further, refer to "Performing Post-Acquisition Compensation" on page 7-41. 12 Click Finish to return to the analysis display.
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7.7 HeatMap
HeatMapping provides a colorimetric representation of comparative results at the experiment level. Each Analysed Group is represented by an individual sector in the HeatMap legend. After the completion of sample analysis, individual parameters can be compared over the entire experimental run. A visual representation of the data and the results will appear in the plate map. Well-to-well variations in blue (dark blue = maximum value, white = minimum value) are based on relative differences in the data as measured on a linear scale.
The plate map can simultaneously display results for up to six Analysed Groups--the same number of sectors that the legend is displaying. Place the cursor over any well to see the result for that Analysed Group. When the HeatMap legend displays more than one sector, the results for every sector will appear within the well pop-up.
NOTE: If the Analysis Method used to create the Analysed Group is new (no regions
and/or gates have been defined), the plate map will initially display all wells as dark blue. Perform the analysis on the data before proceeding to HeatMapping.

One sector in HeatMap Legend

Six sectors in HeatMap Legend

7.7 HeatMap 7 - 45

Creating a HeatMap
The following examples show how to use the HeatMap to get a visual and numerical representation of results for a single or multiple parameters from one data file. This example shows a sample stained to detect mitochondrial membrane potential, cells undergoing apoptosis, and dead cells.
Single-Parameter HeatMap Using a Region or Gate
1 Open the Analysed Group. You can also open an FCS data file and perform the analysis for the populations you are interested in. See "7.4 guava InCyte Analysis" on page 7-19, for information.
Jurkat cells were stained with FlowCellect MitoDamage kit to look at mitochondria membrane potential (MitoSense Red), apoptosis (Annexin V CF488), and cell death (7-AAD). R1 was created for cell population, then applied to plots 2-4. Three regions were created for each population of interest.
2 Select the gate of interest, then click and drag it to the Analysed Group in the Analysed Data pane. Click OK to accept the new gate name, or change the name. As you start to drag the gate, a gray box appears at the cursor. Drag the gate to the Analysed Group and a plus sign (+) appears on the cursor. Drop the gate in the Analysed Group.
NOTE: You can also use the HeatMap legend by dragging the Analysed Group and
the gate to the legend. Then, to update the analysis, simply drag a new gate to the legend. The plate map will update automatically.
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After the gate is applied to the Analysed Group, the wells will change to varying shades of blue, depending on the population percentages. Place the cursor over any well to see the value for that well.
Drag gate
MitoSense Red region is dragged to the Analysed Group. Plate map displays well-to-well variation of relative percentage of mitochondrial membrane potential among samples.
3 To change the metric and/or threshold, see "Metrics" on page 7-49 and "Thresholds" on page 7-49.
4 To save the HeatMapped Analysed Group, select it and click the Save button (3rd) at the bottom of the pane. Navigate to the location where you wish to save it, enter a file name, and click Save. The Analysed Group will be saved as an FCS file and will contain the Method (regions, gates, metrics, and stats), as well as the data and the instrument settings.
Multi-Parameter HeatMap Using a Region or Gate
The following example is the same as the single-parameter HeatMap shown above. In this example, three Analysed Groups are created to view and compare the results for three different populations simultaneously. 1 Open the Analysed Group. 2 To compare multiple parameters from one FCS file, duplicate the Analysed Group.
Select the Analysed Group, then click the Duplicate button (4th button) in the pane. For this example, the Analysed Group was duplicated twice to obtain results on three populations. 3 Select the first Analysed Group, then click to select and drag the gate of interest to this Analysed Group. Click OK to accept the new gate name, or change the name.
7.7 HeatMap 7 - 47

4 Select the second Analysed Group, then click to select and drag the next gate of interest to this Analysed Group.
5 Repeat by dragging the remaining gates to the Analysed Groups. 6 (Optional) To change the name of an Analysed Group, double-click it and type the
new name. 7 Click the Pie Legend icon in the tool bar on the left side of the application window to
display the HeatMap legend. Select the number of sectors (N) to display. 8 Click and drag the Analysed Groups to the appropriate sectors. Then, click the center
circle in the legend to display the results for all populations of interest in the plate map.
NOTE: When multiple sectors are displayed, no data is shown in the plots and you
cannot modify any Methods (add regions, move gates, etc). To modify individual Methods, click on the sector you wish to update. For more information on the HeatMap legend, see "Pie Legend" on page 7-10.
9 The plate map shows each well with the number of sectors used for analysis. Place the cursor over any well to see all the values for that well.
10 (Optional) To clear a sector, right-click on the sector in the HeatMap legend and select Clear sector.
11 To change the metric and/or threshold, see "Metrics" on page 7-49 and "Thresholds" on page 7-49.
12 To save the HeatMapped Analysed Groups, select one and click the Save button (3rd) in the pane. Navigate to the location where you wish to save it, enter a file name, and click Save. The Analysed Group will be saved as an FCS file and will contain the Method (regions, gates, metrics, and stats), as well as the data and the instrument settings. Repeat for the remaining groups.
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Single-Parameter HeatMap Using a Statistic or Expression Stat
The following example shows how to use the HeatMap to get a visual and numerical representation of results for a single or multiple parameters from one data file.
1 Open the Analyzed Group.

2 If necessary, create a stat region or a statistic for any region created. For more information on creating statistic gates and statistics for regions see "7.4 guava InCyte Analysis" on page 7-19.

3 Click the Pie Legend icon in the tool bar on the left side of the application window to display the HeatMap legend.

4 Select the statistic of interest, then click and drag it to the Analyzed Group in the Analyzed Data pane. Click OK to accept the new gate name, or change the name.

Thresholds

The Workspace contains a dual-barred threshold tool for setting upper and lower limits on statistical values. The threshold bars can be used to set limits on a single Analysed Group at a time (the one that is displayed in the plate map). If the HeatMap is displaying multiple sectors, the threshold feature is disabled.

Above the threshold panel is the maximum derived value for a given

data set. Each slider tool is based upon a % scale where the

max

minimum value (0 is lower limit) is Zero and the maximum value (100 value

in upper limit) is defined by the maximum value derived from the

analysis. Simply slide the bars up or down to set boundaries for data

display.

In addition, any well can be selected to represent the MAX value. To set a MAX, right-click on a well and select Use as Max from the menu. The new max value will also be displayed at the top of the threshold panel.

Metrics
Metrics are the statistical parameters applied to a set of gated events. Applying a metric results in the calculation of a numerical value for each well/sample. These values are compared across a given data set and determine the well-to-well variability in color displayed in the plate map. There are six metrics from which to choose:
· Percent (%) - Percentage of events within a given gate relative to the total number of events displayed within the originating plot.
· Count - Number of events within a given gate.
· Concentration - Event count for a gate as a function of the volume of sample acquired (events/uL).
· Mean - Mean fluorescent intensity (MFI) for a set of gated events. If derived from a dot plot, the mean value applies to the parameter associated with the x axis. (For log scale, the mean is geometric; for linear scale, the mean is arithmetic.)

7.7 HeatMap 7 - 49

· Median - Median fluorescence for a set of gated events. If derived from a dot plot, the median value applies to the parameter associated with the x axis.
· Mean Ratio - A measure of the fluorescence intensity for a set of gated events as defined by the following: ratio = MFIwell X/MFIcontrol well. The control MFI may be derived from a single well or represent the average value from a set of control wells. To apply a mean ratio, select Mean Ratio. Using the plate map, select the appropriate control well(s) and drag to the corresponding legend sector. This well's value is used as the denominator in the above equation. You must select a control well as the denominator to get a mean ratio.
Changing the Metric
The default metric for a new Method is percent. To select a different metric, double-click the metric in the Analysis Methods pane, then open the drop-down list to display the Metric list. Select a metric to apply it as the statistical parameter for that Method. Once selected, the new metric will replace the previous one. If you are heatmapping and the corresponding Method occupies a legend sector, the plate map will automatically update to reflect the change.
To change the metric, double-click the metric in the Method and select the new metric.
7.8 IC-50/EC-50
Understanding the kinetic characteristics of a given compound's mode of action is important for determining efficacy, toxicity, and dosage. Assays measuring parameters such as apoptotic status or protein expression are commonly used to obtain this information. Use the IC-50 application to create curves based on the relationship between concentration and response, where response is measured by changes in the statistical parameter for the applied Analysis Method. IC-50 (or EC-50) values are derived directly from the calculated curves. · IC50 is the measure of the effectiveness of a compound inhibiting biochemical
function. This measure indicates how much of a particular drug is needed to inhibit a given biological process by half. · EC50 is the measure of the half-maximal effective concentration of a drug, antibody, or toxicant at some specified exposure time. It is commonly used as a measure of a drug's potency.
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Creating an EC-50 or IC-50 Curve
1 To determine the EC50 value for a given compound, perform the appropriate gating. If the compound-specific sample set is part of a larger data set, create a group to define this specific subset (see "Creating a Group" on page 7-52). Then drag the group to the legend sector.
2 Click the Show Pie Legend icon in the tool bar to open the workspace. Click IC50 at the top of Workspace. A graph appears where x and y axes are defined as Concentration (log10 scale) and response level % (linear), respectively. The y coordinates correspond to the numerical values derived from the Analysed Group. Values are converted to a relative scale where the maximum derived value is set to 100% on the y axis. The x coordinates represent the actual compound concentrations used at each step in the titration. The axis display is open and set automatically from the range of concentrations used.
3 To set the x-axis values for the curve, click the Setup button. The setup dialog appears, displaying the wells used in the analysis, the Sample ID, and Quantity.
The Sample ID is derived from the original FCS file. If a sample ID was not entered for each well, the default well name appears (A01, A02). 4 Enter the Quantity (concentration) for each well. Quantity defines the x-axis values for the graph. These are user-defined and must be entered for each curve. If, during acquisition, you enter a concentration as the sample ID, you can click the Use Sample ID button to enter the Quantity. Characters before the "space" in the ID are used for the quantity. For example, if your sample ID is "3 um staurosporine," the 3 is used for the quantity. You can also type the values into the Quantity fields. Enter the actual number (.01, .001, .0001) or use scientific notation (1e-2, 1e-3, 1e-4). 5 Click OK to display the graph.
7.8 IC-50/EC-50 7 - 51

The EC-50 (IC-50) value is marked by a bold + on the curve.
Toggles between EC-50 and IC-50 what is this field for? Select between EC-50 and IC-50.
You can make the following adjustments to the data: · Change the target value (from 2080). For example, instead of viewing a graph
where 50% of the effect is observed, set the EC or IC value to 25 to see where 25% of the effect is observed. · The Conc field provides the numerical value for the EC-50 point, in this case 0.16. · Select between EC-50 and IC-50.
7.9 Special Features
Creating a Group
A group is a user-defined set of sample wells from one or more FCS files (or data sets). Grouping allows you to extract and analyze a subset of samples from the data set(s). You can also use grouping to apply different Methods to subsets of data that are part of a single FCS file, to get different statistics, for example. To create a group: 1 Select the FCS data file in the Data pane.
The plate map displays the wells acquired in that file. 2 Drag the cursor across the appropriate wells in the plate
map, right-click the selected wells, and choose Create group from the menu. To select non-consecutive wells, press the Ctrl key while clicking to select wells. The order that you select and add the wells to the group is the order that they will be in the group. The group name appears under the original FCS file in the Data pane. To rename the group, double-click the name and type in the new name.
7 - 52 guava easyCyte HT System User's Guide

To add additional samples to an existing group, select the wells and drag them to the group in the Data pane.
NOTE: You can combine samples from different FCS files; however, if you select the
same/overlapping wells, the plate map and plots will display only the first of the overlapping well(s) selected (eg, the first A01 selected). 3 To remove an individual well, right-click it and select Remove Item. The deleted well is removed from the group and appears as an empty square in the plate map. Wells can be deleted only from groups, not from the original FCS file. To delete a group, select it and click the Delete Group icon in the Data pane.
NOTE: Use the Duplicate Group icon in the Data pane to make a copy of a group.
Group under the data file from which it was created.
You can also use the icons at the bottom of the Data pane to create, open, save, duplicate, and delete a group.
Data Pooling
During analysis you can combine the data from multiple wells into a single sample. This can be useful when analyzing rare events. To pool samples, you must first pair a data file with a Method to create an analyzed group, if an analyzed group does not already exist. 1 Click a well that you wish to pool data from other wells into, then drag to select the
other wells. 2 Right-click the selected wells and choose Pool Samples from the menu.
Example: D01 is selected and cursor is dragged through D03. Right-click and select Pool Samples. Wells D02 and D03 now appear with 01 label.
7.9 Special Features 7 - 53

The data combined from all select wells appears in the plots. The wells appear in the plate map with the label number of the first selected well.
Combined (pooled) data for D01 through D03 appears in the plots.
To see the new combined number of events for a given population, open the Current Run Stats window by selecting Tools > Show Current Run Stats. If stats have not been created, click the New Stat Marker icon to the right of the plot and select New Stat for Rx. Select Count as the Metric and click OK. 3 To "unpool" the data, click and drag to select the wells (in any order). Right-click the selected wells and choose Cancel Pooled Samples.
Overlaying Histograms
The histogram overlay feature allows you to superimpose histograms from multiple samples derived from one data file. By selecting a different color for each sample, you can see the different sample data overlaid within the same plot. Each histogram plot has its own overlay list. 1 Click the Edit Overlay List icon (last icon in the tool bar of the histogram plot).
The Overlay Setup dialog box appears with the currently displayed sample well listed as base in the far-left column and <current> under Sample ID.
2 To add samples to the overlay list (and plot), drag a well directly from the plate map to either the histogram plot or the Overlay Setup dialog box. To select multiple wells, drag to select wells or use the Ctrl key to select non-consecutive wells.
7 - 54 guava easyCyte HT System User's Guide

The plot will display the selected sample data in the designated colors. When you overlay plots, any markers you had previously set, as well as the stats, apply to the base plot only. The overlays are derived from the same gate as the initial plot. You can also change the parameter displayed by clicking the x-axis label and choosing a different parameter. · To change the overlay order, click the number (or "base") in the left column and
drag it to a new location in the list. · To remove data for an individual sample, click to select the well in the list and click
Delete. · To hide the data for an overlay from the plot, click to remove the check mark from
the Show check box. · Click Line Style, Line Color, and Fill Color to change the appearance of the overlay.
NOTE: You cannot overlay sample data with different plot parameters. A message will
appear informing you that some samples do not have the required parameters.
7.10 Exporting guava InCyte Results
You can export the results from the current run or any sample run to both FCS 2.0 and FCS 3.0 files. The data must have an Analysed Group associated with it. One FCS file is saved for each sample acquired. You can analyze both FCS 2.0 and 3.0 files using a third-party flow cytometry analysis application. FCS 3.0 files are exported with all parameters included. FCS 3.0 files with semi-automated or post-acquisition compensation may be compatible with some third-party applications. For more information, contact EMD Millipore Technical Support.
1 To export analysis results for all sample data within the run to individual FCS 2.0 or 3.0 files, select File > Export to FCS 2.0, Export to FCS 3.0, or Export to FCS 3.0 (No Comp), if you do not want the post-acquisition compensation changes included. You can also select a specific Analysed Group from the Analysed Data Pane and select the appropriate export option from the File menu.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The samples are numbered sequentially and a number is automatically appended to the file name. For example, if the sample number is A01, the file will be named filename-1.FCS, A02 is filename-2.FCS, etc.
7.11 Printing Results
Before printing results, use the Print Preview option to customize the information that prints.
1 If necessary, set up the page orientation, paper size, and margins by selecting File > Page Setup.
2 Select File > Print Preview.
7.10 Exporting guava InCyte Results 7 - 55

The Print Preview window appears.
3 Select how you wish the results to print: · Select the plots to print by clicking the check box next to the plots. The selected plots will print in the order they are listed. If you wish to reorder the plots in the list, click and drag a plot to a new location in the list. · Check to includes the statistics. The stats will appear in a table at the end of the printout. · Select how many samples you wish to print per page. · Select how many rows you wish to print per sample. · To scroll through the pages, place the cursor on the page, then click and drag (the hand) to move the page.
7.12 Instrument Settings
InCyte saves the instrument settings for each sample acquired. To access the settings window select the Analysed Group from the Analysed Data pane, then click the Show Instrument Settings tool in the tool bar, or select Tools > Show Instrument Settings. In addition to the threshold, gains, and compensation, all of the acquisition information, such as date, time, number of events, total volume, concentration, and flow rate, along with sample-specific information, like sample ID and number, dilution factor, and original volume are saved.
7 - 56 guava easyCyte HT System User's Guide

To copy the window to the clipboard, right-click in the window and select Copy to Clipboard.

Exporting Instrument Settings
You can export these values to a comma-separated values (CSV) file for use in a spreadsheet program. Click Export to CSV. Select the folder where you want to store the file, enter a file name, and click Save.
You can also print the settings. Click Print Stats to print the instrument settings.

7.13 guava InCyte Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava InCyte spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava InCyte FCS file to another directory or give it a new name.

InCyte Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Gates and/or events in plots 1. Data file or Method is

Click on the AnalyzedGroup

disappear.

selected.

in the Analysed Data pane to

2. Data was acquired in tubes. display data and gates.

3. More than 96 samples were

acquired.

7.13 guava InCyte Assay Troubleshooting 7 - 57

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Cell Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events

1. Laser not warmed up.

appearing in plots

displaying GRN, YEL, RED, 2. Instrument settings not

NIR, RED2, and/or NIR2.

optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell

1. Sample was not stained.

Count shows events, but

the events appear in the

wrong places in plots

2. Cell lysis.

displaying GRN, YEL, RED,

NIR, RED2, and/or NIR2.

Events appear in some plots but not in others.

Ensure correct gate is selected for plot in question.

1. Check sample. If necessary, restain sample from original suspension.
2. Check buffers used to process cells.
1. Open plot menu, point to Apply Gates and select gate.
2. Check gate definition to ensure it includes the correct regions and operators.

7 - 58 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Cell Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events

1. Laser not warmed up.

appearing in plots

displaying GRN, YEL, RED, 2. Instrument settings not

NIR, RED2, and/or NIR2.

optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell

1. Sample was not stained.

Count shows events, but

the events appear in the

wrong places in plots

2. Cell lysis.

displaying GRN, YEL, RED,

NIR, RED2, and/or NIR2.

Events appear in some plots but not in others.

Ensure correct gate is selected for plot in question.

7.13 guava InCyte Assay Troubleshooting 7 - 59

Problem

Possible Cause

Solutions

Events appear off scale in dot plots or histograms.

FSC SSC, GRN, YEL, RED, NIR, RED2, and/or NIR2 gains set incorrectly, or samples staining brightly.

Adjust gain setting so positive populations appear on scale. Repeat Adjust Settings with negative sample. Adjust compensation settings.

Poor resolution between positive and negative populations.

1. Gains too low to detect

1. Adjust settings to increase

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

2. Incomplete staining with 2. Ensure positive control is

fluorescent probe, or

staining adequately and

fluorescent probe

with correct reagent.

inappropriate for cell type.

3. Fluorescent probes over- 3. Refer to reagent package

exposed to light, stored

insert for proper storage

improperly, or expired.

instructions. Do not expose

reagent to excessive light.

Do not use expired

reagents.

4. Non-specific binding of fluorescent probes.

4. If using antibody-based probes, try Fc blocking reagent during staining to

minimize non-specific

binding. Otherwise, titer

the fluorescent probes

down to reduce the

nonspecific staining.

5. Background noise too high. 5. Adjust settings to increase FSC threshold to remove

debris. Or, wash stained

sample and reacquire.

Cannot resolve dim positive Dirty capillary. staining from background signal.

Perform at least one cycle of Guava Clean. While acquiring samples, select Clean & Rinse instead of Quick Clean, and if necessary, run it frequently.

7 - 60 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Poor resolution between 1. Incomplete staining with 1. Check expiration date and

positive populations in plots reagent(s).

amount of reagent(s) used

displaying GRN, YEL, RED,

in staining.

NIR, RED2, and/or NIR2. 2. Too much reagent in

2. Washing cells may remove

staining tube.

residual reagent.

3. Fluorescence background 3. Washing cells may remove

too high.

residual reagent.

4. Gain too high causing

4. Adjust settings to reduce

signal to bleed into other

gain. Adjust compensation

parameters.

settings.

5. Gain too low to optimally 5. Adjust settings to increase

detect positive signal.

gain. Adjust compensation

settings.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris. Or, select one of

the fluorescence

parameters as the

threshold.

7.13 guava InCyte Assay Troubleshooting 7 - 61

7 - 62 guava easyCyte HT System User's Guide

CHAPTER 8 guava Nexin Assay
Introduction
Apoptosis, or programmed cell death, is an important regulatory pathway of cell growth and proliferation. In apoptosis, cells respond to specific induction signals by initiating intracellular processes that result in physiological changes. Among these changes are:
· externalization of phosphatidyl serine (PS) to the cell surface · cleavage and degradation of specific cellular proteins · compaction and fragmentation of nuclear chromatin · loss of membrane integrity (in late stages) Early in the apoptotic pathway, the PS molecules, normally localized on the inside of the cell membrane, move to the outer surface of the membrane. In the later stages of apoptosis, the cell membrane loses its integrity and begins to break down. The Guava PCA-96 Nexin Kit includes Annexin V, a calcium-dependent phospholipid binding protein with a high affinity for PS. The Annexin V-PE in the reagent binds to the PS that has migrated to the outside of the cell membrane. Nexin 7-AAD, a viability stain, is also included in the assay and used as an indicator of membrane structural integrity. 7-AAD binds to the nuclear material within the cell after the membrane breaks down, allowing you to differentiate the apoptotic cells (Annexin V-positive) into early (7-AADnegative) and late (7-AAD-positive) stages. To run the assay, follow the instructions in the Guava PCA-96 Nexin Kit package insert to stain the cells. Acquire samples on the guava easyCyte HT System using guavaSoft Software. Data are displayed in an Annexin V-PE vs 7-AAD dot plot with quadrant markers that you can adjust for immediate on-screen results. Statistics for each quadrant include the cell count, percentage of cells in the gate, and the mean fluorescence intensity (MFI). Additionally, statistics for Annexin V-PEpositive and 7-AADpositive cells are also provided.
The guava Nexin data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you selected to save FCS 2.0 files. In addition to the saved data file, all results, instrument settings, and the acquisition summary information are exported to a spreadsheet file.
Introduction 8 - 1

Running the guava Nexin Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "guava Nexin Software Module Control Panels" on page 8-14. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information. 2 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click Nexin from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or 0.5-mL tubes. Refer to the Guava PCA-96 Nexin Kit package insert for information.
5 Click Start Worklist on the guava Nexin screen. The sample tray ejects. A dialog box appears prompting you to load samples.
8 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

Running the guava Nexin Assay 8 - 3

8 A dialog box appears prompting you to select the worklist file. Select the worklist file for the current plate and click Open.
Select worklist file and click Open.
9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
8 - 4 guava easyCyte HT System User's Guide

11 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends using a stained negative (non-apoptotic or uninduced) control sample. Click to select the well/tube used to adjust settings, then click OK.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data. 12 Check the Cells/µL value in the Sample Information control panel and ensure that it is less than or equal to 500.
NOTE: If the value is greater than 500, click Abort, then click Eject Tray. Dilute the
sample with Guava Nexin Reagent diluted 1:2 with protein-containing medium to lower the concentration to <500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings. 13 If you need to fine tune the settings, you can make the following adjustments once events start to appear on the screen: · Set the Refresh Rate to the maximum number of events you want to display. · Set the Flow Rate to Low (0.24 µL/s) or Medium (0.59 µL/s). The recommended flow rate is Medium. · Use the FSC Gain settings to reduce or amplify the FSC signal so that the cells are visible and on scale. · To adjust the FSC threshold, click and drag the threshold marker up or down the FSC axis of the FSC vs PM1 dot plot until the desired amount of debris is eliminated below the threshold.
NOTE: When setting the threshold, allow for a possible shift in the apoptotic cell
population. Any debris that gets acquired can be excluded during analysis with the optional dot plot gate. · Adjust the voltages (using the PM1 and PM2 sliders or the arrow keys on the keyboard) so that the live cell population is positioned in the lower-left corner of the
Running the guava Nexin Assay 8 - 5

PM1 vs PM2 dot plot. Adjust the PMTs by starting from a lower voltage setting and gradually increasing the voltage.
Drag to adjust FSC threshold.
14 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples such as the positive control are on scale and appropriately positioned by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s).
8 - 6 guava easyCyte HT System User's Guide

15 Click Resume. The system acquires the first sample and displays the results. The tube/well currently being acquired is highlighted in red.
ACQUISITION NOTES
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 2 minutes.
16 EMD Millipore recommends adjusting the quadrant markers prior to acquiring the remaining samples. Click Pause during the acquisition of the first sample. The system will pause when the acquisition is complete. Once the system is paused, adjust the gate and/or quadrant markers, then click Resume. The remaining samples are automatically acquired. Refer to "guava Nexin Analysis" on page 8-8 for information.
The system automatically performs a Quick Clean at the end of the assay.
Running the guava Nexin Assay 8 - 7

guava Nexin Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 files or a spreadsheet file. You can save changes made to the sample ID, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. 1 Click Nexin from the main menu. 2 Click Go to Analysis from the Acquisition screen.
8 - 8 guava easyCyte HT System User's Guide

3 Click Open Data Set. Select an FCS file for analysis and click Open. The data and results for the first sample in the data set appear. The marker setting appears as it was when the sample was acquired. Check the positive control to ensure the gate and quadrant markers are set appropriately. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
guava Nexin Analysis 8 - 9

Optional Dot Plot Gate
To analyze the data for the stained negative control, set the quadrant markers on the Annexin V-PE vs 7-AAD dot plot. If the FSC vs PM1 dot plot shows excessive debris, you can set an optional gate first to exclude the debris from the analysis.
1 Click Enable Gating to turn on the gate.
2 To set a gate, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-right handle. Events that fall within the center rectangle and appear in red are included in the gate. You may also set the gate by entering the coordinates in the Marker Position fields and clicking Set. The gated data appears in the Annexin V-PE vs 7-AAD dot plot.
NOTE: If using the stained negative control to set the gate, be sure to extend the gate
high enough up the y-axis (as shown) so that PM1-positive events in subsequent samples are included in the gate.

Enter coordinates to set gate.
Click to turn on gate markers.

Click and drag handles to manually set gate. A label displays handle's current x and y coordinates.

FSC vs PM1 dot plot gate identifying Annexin V-positive (apoptotic) and -negative (live) cells.
Quadrant Markers
Adjust quadrant markers on the Annexin V-PE vs 7-AAD dot plot to generate statistics on the selected populations.
3 To set the markers, position the cursor over the handle at the intersection, then click and drag to the desired location. You may also set the markers by entering the coordinates in the Marker Position fields and clicking Set. The Apoptosis Quadrant Analysis Results are automatically updated each time you move the markers.

8 - 10 guava easyCyte HT System User's Guide

4 If necessary, you can adjust the angle of the markers ±44° from their original locations. Click and drag the handle (solid square) towards the end of the marker and tilt it to the desired location. You may also set the angles by entering the values in the Angle fields and clicking Set.

Enter coordinates and angles to set markers.

Click and drag to set marker angle. A label displays markers' x and y coordinates and angle.
Click and drag to set markers. A label displays markers' x and y coordinates.

Annexin V-PE vs 7-AAD quadrant markers differentiating Annexin Vpos cells into 7-AADpos and 7-AADneg.
5 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
6 You can apply gate and/or markers settings from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
7 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
8 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.

guava Nexin Analysis 8 - 11

guava Nexin Quadrant Results
The statistics for the data within each quadrant are displayed. Results include the count, % of Total (all data in the dot plot) or % Gated if a gate was enabled, and the mean fluorescence intensity (MFI) for each parameter (PM1 and PM2). Additionally, statistics for Annexin Vpositive cells (upper-right and lower-right quadrants) and 7-AADpositive cells (upper-left and upper-right quadrants) are included.
Statistics for each quadrant as well as Annexin V+ (upperright and lower-right quadrants) and 7-AAD+ (upper-left and upper-right quadrants) are displayed.
Results for each quadrant are displayed as a count and as a percentage of all data in the dot plot. If a gate was set, the values represent data within the gate.

guava Nexin apoptosis quadrant statistics.

The summary of each quadrant is outlined in the table below.

Quadrant

Staining

upper left upper right

Annexin Vnegative, 7-AADpositive Annexin Vpositive, 7-AADpositive

lower left

Annexin Vnegative, 7-AADnegative

lower right

Annexin Vpositive, 7-AADnegative

Population
nuclear debris late apoptotic cells live, healthy cells early apoptotic cells

Exporting guava Nexin Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.

8 - 12 guava easyCyte HT System User's Guide

Exporting guava Nexin Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application.
1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0. You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print.
1 Select any sample from the Analyze Sample List and click Print. The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

guava Nexin Analysis 8 - 13

guava Nexin Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.

Sample Information

Original Sample Data
· Displays the sample #. This number defaults to 1 and advances at the completion of sample acquisition.
· Displays the Sample ID for the individual sample.
· Displays the number of events to acquire. The default is 2000.
· The progress bar provides an estimate of the target event count during acquisition.
Cell Count Displays the total number of cells and cells/µL that have exceeded the FSC threshold. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

8 - 14 guava easyCyte HT System User's Guide

Unit Control

Detection Displays the laser status and the PM1 and PM2 voltage settings and the FSC gain. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the offset and threshold setting for FSC and the PM1 and PM2 offset settings.
NOTE: You can edit the Threshold units during the adjust
settings step by typing a value in the field. Do not change the voltages from this panel. Use the sliders to adjust the PM1 and PM2 voltages. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava Nexin Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava Nexin spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava Nexin FCS file to another directory or give it a new name.

Nexin Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

guava Nexin Assay Troubleshooting 8 - 15

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Particle Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in PM1 vs PM2 dot plot.

1. Laser not warmed up.
2. Threshold set too low or debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in FSC vs FSC vs PM1 gate excludes PM1 dot plot but not in PM1 events. vs PM2 dot plot.

Ensure FSC vs PM1 gate is set to include population of interest.

Events appear off scale in dot plots.

PM1 and /or PM2 voltages set Adjust settings to increase or

incorrectly, or samples

decrease PM1 and/or PM2

staining brightly.

voltages so positive

populations appear on scale.

Repeat Adjust Settings with

negative sample.

8 - 16 guava easyCyte HT System User's Guide

Problem
Poor resolution between PE+ and PE populations.
Poor resolution between 7-AAD+ and PE+ populations.

Possible Cause

Solutions

1. PM1 voltage too low to

1. Adjust settings to increase

detect PE signal.

PM1 signal.

2. Incomplete staining with 2. Refer to package insert for

Annexin V-PE.

proper staining

instructions.

3. Incomplete induction of 3. Check induction control.

apoptosis in test

suspension.

4. Uninduced population

4. Stabilize unstained cells by

reacting with Annexin V

resuspending in 1020%

because cells have been

FBS for 30 min and restain.

stressed.

5. Apoptotic bodies included 5. Adjust FSC threshold or

in analysis.

set gate to remove debris.

6. Annexin V expired, or not 6. Refer to package insert for

stored properly.

proper storage instructions.

Do not use expired

reagent. Do not expose

reagent to light.

7. Background noise too high. 7. Adjust settings to increase

FSC threshold to remove

debris.

8. Fluorescence background 8. Washing cells may remove

too high.

residual reagent.

1. High viability sample.

1. Resolution may be difficult

if few dead cells in sample.

2. Incomplete staining with 2. Check 7-AAD expiration

7-AAD.

date.

3. Too much Annexin V-PE in 3. Washing cells may remove

staining tube.

residual reagent.

4. Fluorescence background 4. Washing cells may remove

too high.

residual reagent.

5. PM1 signal too high

5. Adjust settings to reduce

causing PE to bleed into

PM1 voltage.

PM2.

6. PM2 voltage too low to

6. Adjust settings to increase

optimally detect 7-AAD

PM2 voltage.

signal.

7. Background noise too high. 7. Adjust settings to increase

FSC threshold to remove

debris.

guava Nexin Assay Troubleshooting 8 - 17

8 - 18 guava easyCyte HT System User's Guide

CHAPTER 9 guava Caspase Assay

Introduction
Apoptosis, or programmed cell death, is an important regulatory pathway of cell growth and proliferation. Caspase enzymes play a central role in the apoptotic cell death process. Caspases (cysteinyl-directed aspartate-specific proteases) form a family of enzymes that initiate the apoptotic cascade, carry out cellular breakdown, and process cytokines. The activation of caspases usually commits a cell to death by the apoptotic pathway.
The Guava Caspase Kits use one or two fluorochrome-conjugated inhibitors of caspases consisting of a fluorophore (sulforhodamine [SR] or carboxyfluorescein [FAM]), a peptide specific for the active site of a particular caspase or many caspases, and a reactive functional group (fluoromethylketone or FMK). These inhibitors are cell permeable and non-cytotoxic. Once inside the cell, the caspase inhibitors bind specifically through the peptide moiety to caspases that have been activated in apoptosis, and the FMK moiety covalently links the inhibitor to the caspase. The resulting signal is proportional to the number of active caspase enzymes that are present in the cell. Cells with significant Caspase Reagent staining are in the mid- or late-apoptotic stages or are dead.
7-AAD, a viability stain, is also included in the assay and used as an indicator of membrane structural integrity. 7-AAD does not bind to live, healthy cells or early- to mid-apoptotic cells, but permeates later stage apoptotic cells and dead cells.
To run the assay, follow the instructions in the appropriate Guava Caspase Kit package insert to stain the cells. Acquire samples on the guava easyCyte HT System using guavaSoft Software. Use the gating dot plot to display scatter and fluorescence to delineate cells from debris. For two-color Caspase Reagent Kits, data are displayed in an SR Peptide [YLW] (or FAM Peptide [GRN]) vs 7-AAD (RED) dot plot with quadrant markers that you can adjust for immediate on-screen results. For three-color Caspase Reagent Kits, you can configure two dot plots to display the fluorescence from the two Caspase Reagents and 7-AAD in any combination you choose.
Statistics for each quadrant include the cell count, cells/mL, percentage of cells in the gate, and the mean fluorescence intensity (MFI). Additionally, statistics for Caspase Reagentpositive and 7-AADpositive cells are also provided.
The guava Caspase data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you selected to save FCS 2.0 files. In addition to the saved data file, all results, instrument

Introduction

9 - 1

settings, and the acquisition summary information are exported to a spreadsheet file.
Running the guava Caspase Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "Caspase Software Module Control Panels" on page 9-19. 1 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop. 2 Click Caspase from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
Start by selecting the appropriate reagent combination. See step 4 below.
3 Prepare samples for analysis in a microplate or 0.5-mL tubes. Refer to the appropriate Guava Caspase Kit package insert for information.
4 Select the appropriate reagent combination: · SR with 7-AAD · FAM with 7-AAD · SR and FAM with 7-AAD
9 - 2 guava easyCyte HT System User's Guide

5 Click Worklist Editor to open the Worklist Editor application to define the worklist parameters.
NOTE: If you already created a worklist, you can click Start Worklist. The tray ejects
and dialog boxes appear prompting you to select the worklist file, save the data set, and select the sample to adjust instrument settings.
NOTE: The default number of events to acquire for the two-color assay (SR with
7-AAD or FAM with 7-AAD) is 2000; while the default number of events for the threecolor assay (SR and FAM with 7-AAD) is 3000. If you are using a previously defined worklist, ensure that the correct number of events is entered for the appropriate reagent combination you will be running.

6 Define the worklist parameters for the run and click Start this Worklist. See "Creating a Worklist" on page 1-29 for more information on setting up a worklist. See "Worklist Editor Software" on page 1-27 for information on the buttons below the plate map. When you start a worklist, the sample tray ejects. A dialog box appears prompting you to load samples.
WARNING: Keep the area in front of the tray clear as the tray ejects.

Running the guava Caspase Assay

9 - 3

7 Place the microplate, any sample tubes (0.5-mL microcentrifuge tubes), and the cleaning tubes in the tray. Make sure well A1 of the plate is in the top-right corner. Load the following 1.5-mL microcentrifuge tubes in these positions:
· Load tubes containing water in positions w2, w4, and w5 (for Quick Clean and washing the capillary and mixer).
IMPORTANT: Always load a tube filled with water in position w4 (for Quick Clean).
· Load empty tubes in positions w3 and w6 (for spinning/drying the mixer).
· Load a tube containing 100 µL of bleach in position w1 (for performing a backflush).

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

8 Click OK in the Load Samples dialog box after you are finished loading samples and cleaning tubes to load the sample tray.
WARNING: Keep the area clear as the tray loads.
WARNING: Always use the Eject Tray button in guavaSoft Software to open the door.
Click Pause first, if necessary. Never open the door with your fingers.

9 - 4 guava easyCyte HT System User's Guide

9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
11 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends using a stained negative (non-apoptotic/uninduced) control sample for two-color assays (SR + 7-AAD or FAM + 7-AAD). For three-color assays, use a stained negative control sample stained with all three reagents (SR, FAM, and 7-AAD). Click to select the well/tube used to adjust settings, then click OK.
NOTE: If you are performing a three-color assay, you will need to perform
compensation as well. Ensure SR and FAM with 7-AAD is selected to display three plots along with the compensation sliders at the adjust setting screen. Compensation

Running the guava Caspase Assay

9 - 5

is not necessary for the two-color assay. However, if you still wish to perform compensation for your two-color assay, select SR and FAM with 7-AAD.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data.
12 Check the Cells/µL value in the Sample Information control panel and ensure that it is between 10 and 500 cells/µL.
NOTE: If the value is greater than 500, click Abort, then click Eject Tray. Dilute the
sample with 7-AAD Reagent Working Solution to lower the concentration to <500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings.
13 If you need to fine tune the settings, you can make the following adjustments once events start to appear on the screen: · Set the Refresh Rate to the number of events you want to display. · Set the Flow Rate to High (1.2 µL/s), Medium (0.59 µL/s), Low (0.24 µL/s), or Very Low (0.12 µL/s). · Select the y-axis parameter for the Gating Dot Plot (SR-Peptide [YLW], FAMPeptide [GRN], or 7-AAD [RED]). For the y-axis parameter of the first plot for threecolor assays, you can also select SSC (Lin or Log), as well as select FSC Lin or FSC Log for the x-axis parameter. · Use the FSC Gain setting to reduce or amplify the FSC signal so that the cells are visible and on scale. Use the drop-down menu to change the FSC signal by a factor of 2. Use the FSC slider to change the FSC signal by steps of 1% between two coarse gain levels. If the slider is set to 100% (min), the gain is equal to the value appearing in the drop-down box. If the slider is set to 200% (max), the gain is 2 times the value appearing in the drop-down box. · To adjust the FSC threshold, click and drag the vertical marker up or down the FSC axis of the left-most dot plot until the desired amount of debris is eliminated below the marker.
NOTE: When setting the threshold, allow for a possible shift in the apoptotic cell
population. Any debris that gets acquired can be excluded with the optional dot plot gate during analysis. · Adjust the voltages (using the RED and YLW and/or GRN sliders or the arrow keys on the keyboard) so that the live cell population is positioned in the lower-left corner of the SR-Peptide (or FAM-Peptide) vs 7-AAD dot plot for two-color assays;
9 - 6 guava easyCyte HT System User's Guide

or, dot plots 2 and 3 for three-color assays. Adjust the voltages by starting from a lower voltage setting and gradually increasing the voltage.

SR with 7-AAD stained sample.

Perform compensation for three-color assays.

SR and FAM with 7-AAD stained sample.
· Check these settings with a sample containing some live, mid-apoptotic, and dead/ late-apoptotic cells.

Running the guava Caspase Assay

9 - 7

· If you are running a three-color assay, you must perform compensation after you have adjusted the gain, threshold, and voltages. Click Next Step, Settings, Adjust Settings, then select the location of the following stained samples:
Start with an induced sample (with live, mid-, and at least 10% dead/late-apoptotic cells) stained with 7-AAD only. Select the Compensation tab and adjust the YLW %RED slider until the 7-AAD (RED) signal is removed from the SR-peptide (YLW) parameter. (see Figures 1a and 1b) .

Figure 1a

Figure 1b

YLW--%RED uncompensated (Fig 1a) and compensated (Fig 1b)

Then, run the same sample, this time stained with SR-Peptide and 7-AAD. Adjust the GRN%YLW and RED%YLW sliders to remove the SR-Peptide (YLW) signal from the GRN and RED parameters (see Figures 2a and 2b).

Figure 2a

Figure 2b

GRN--%YLW and RED--%YLW uncompensated (Fig 2a) and compensated (Fig 2b)

9 - 8 guava easyCyte HT System User's Guide

Then, run the same sample, this time stained with FAM-Peptide and 7-AAD. Adjust the YLW%GRN slider to remove the FAM-Peptide (GRN) signal from the YLW parameter (see Figures 3a and 3b).

Figure 3a

Figure 3b

YLW%GRN uncompensated (Fig 3a) and compensated (Fig 3b)

NOTE: GRN%RED and RED%GRN compensation adjustments are generally not
necessary in the three-color assay, as 7-AAD does not overlap into the GRN parameter, and FAM does not significantly overlap into the RED parameter. However, you may find that a RED%GRN adjustment may be needed.

Finally, check the compensation with a sample stained with all three reagents-- SR, FAM, and 7-AAD (see Figure 4). Make any adjustments, if necessary.

Figure 4

NOTE: The staining pattern in Figure 4 was
obtained from a culture treated with an apoptotic inducer that activates both caspases equally in the majority of cells. You may get different staining patterns, depending on the stain you use and how the cells proceed through apoptosis.

Check compensation with three-color sample.
14 To use a gate for the two-color assay, click Enable Gating. For the three-color assay, select Add Gate Type from the plot menu. This enables the counting gate. Refer to "Dot Plot Gate" on page 9-13 for information on setting a gate. When a gate is enabled during acquisition, it acts as a counting gate--all events above the FSC threshold are acquired, and only events that are included in the gate are counted toward the number of Events to Acquire. The counting gate can be enabled during acquisition from the Adjust Settings screen only. If you wish to adjust it or delete it later during acquisition, you must return to the Adjust Settings screen. If you do not enable a counting gate during the adjust settings step of acquisition, you can enable an analysis gate later during data analysis.
15 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples such as the positive control are on scale and appropriately positioned by clicking

Running the guava Caspase Assay

9 - 9

Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s). If you made changes to an existing settings file, when you click Next Step you will be prompted to save it as a new file or overwrite the existing file. 16 Click Resume. The system acquires the first sample and displays the results. The tube/well currently being acquired is highlighted in red.
ACQUISITION NOTES
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go To Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 1.75 minutes (high flow rate), 3.5 minutes (medium flow rate), 7 minutes (low flow rate), or 10 minutes (very low flow rate).
The system automatically performs a Quick Clean at the end of the assay.
9 - 10 guava easyCyte HT System User's Guide

guava Caspase Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 files or a spreadsheet file. You can save changes made to the sample ID, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. You can select the SR and FAM with 7-AAD reagent option at the top of the screen to analyze your two-color data files, allowing you an additional dot plot to view. This version of the Caspase Software Module within guavaSoft Software, version 2.7 also allows you to open and analyze files acquired using the MultiCaspase Software Module. 1 Click Caspase from the main menu. 2 Click Go to Analysis from the Acquisition screen.
guava Caspase Analysis 9 - 11

3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. The marker setting appears as it was when the sample was acquired. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
Plot Menu
Most of the analysis features are available from the plot menu. Click the plus sign (+) in the upper-right corner above the plot or right-click the plot to open the plot menu (shown at right for three-color data). The options available within the menu vary depending on whether you are viewing two- or three-color data or the gating plot versus the analysis plot. For two-color data you can view quadrant markers only in the analysis plot. For threecolor data you can set elliptical, octagonal, or rectangular gates in the analysis plots, and choose whether to display gated or ungated data. To select the statistics to export for three-color data, choose CSV Stats Template (see "Selecting Statistics for the Spreadsheet File" on page 9-17).
9 - 12 guava easyCyte HT System User's Guide

Dot Plot Gate
The dot plot gate is optional. It allows you to remove excess debris from the FSC vs SRPeptide, FAM-Peptide, or 7-AAD plot for two color data; or FSC (Lin or Log) vs SSC (Lin or Log), SR-Peptide, FAM-Peptide, or 7-AAD plot for three-color data. You can set a rectangular, octagonal, or elliptical gate. The Analysis Results are automatically updated each time you adjust the gate for two-color data. For three-color data, you must use the plot menu to apply the gate to the analysis plots.
4 If you did not set a counting gate during the adjust settings step, you can set a gate now during analysis. Click Enable Gating (for two-color data) to turn on the rectangular gate (you can change the gate type using the plot menu), or select Add Gate Type from the plot menu and choose the gate type you wish to set.
5 Set the analysis gate on the viable and apoptotic cells to exclude the debris. · To set a rectangular gate, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-right handle. Events that fall within the center rectangle are included in the gate. The following examples show gates for two- and three-color assays.

Click to turn on gate markers.

Click and drag handles to manually set gate. A label displays handle's current x and y coordinates.

FSC vs SR-Peptide (YLW) gate for two-color data, identifying SR-Peptidepositive (mid- to late-apoptotic) and -negative (live and dead) cells.

FSC vs SSC gate for three-color data, identifying 7-AAD-positive (dead/late-apoptotic cells) from live and midapoptotic cells.
guava Caspase Analysis 9 - 13

· To set an octagonal gate, click on a line of the octagon to drag it to a new location. Click on a handle to change the size of or rotate the octagon. To move one of the handles, press and hold the shift key while clicking and dragging a handle.
Click and drag a line to move octagon. Click and drag handle to change size of or rotate octagon. Hold down Shift key while clicking and dragging to move one handle. Octagon gate.
· To set an elliptical gate, click anywhere on the edge of the ellipse, except on a handle, and drag it to a new location. Click on a handle to change the size and angle of the ellipse.
Click and drag handles to change size and angle of ellipse. Click and drag edge to move ellipse.
Elliptical gate.
6 For three-color data, you must apply the gate(s) to the other plot(s). Select Apply Gates from the plot menu (see figure at right), then select the plot containing the gate you wish to apply. You can set a gate in plot 1 and another gate in either plot 2 or 3, then apply the gate(s) to one or both of the other plots.
NOTE: For two-color data, the gated data automatically appears in the SR-Peptide
(or FAM-Peptide) vs 7-AAD analysis dot plot. It is not necessary to apply the gate to the plot.
9 - 14 guava easyCyte HT System User's Guide

Quadrant Markers
The quadrant markers on the SR-Peptide (YLW) [or FAM-Peptide (GRN)] vs 7-AAD (RED) dot plot provide statistics on the selected populations. If you are analyzing three-color data, you can also view FAM-Peptide vs SR-Peptide. The Analysis Results are automatically updated each time you move the markers. For two-color data, only quadrant markers are available for the analysis plot. For three-color data, you may use quadrant markers, as well as elliptical, octagonal, or rectangular gates in either analysis plot (2 or3), then you can apply the gate to the other analysis plot.
7 To set the quadrant markers, position the cursor over the handle at the intersection, then click and drag to the desired location. If you are analyzing two-color data and viewing two plots, you may also set the markers by entering the coordinates in the Marker Position fields and clicking Set.
8 If necessary, you can adjust the angle of the markers ±44° from their original location. Click and drag the handle (solid square) towards the end of the marker and tilt the marker to the desired angle. For two-color data, you may also angle the markers by entering the degrees in the Marker Position Angle fields and clicking Set.

Enter coordinates and angles to set markers.

Click and drag to set marker angle. A label displays markers' x and y coordinates and angles.
Click and drag to set markers. A label displays markers' x and y coordinates and angles.

FAM Peptide vs 7-AAD quadrant markers differentiating early/mid- and late-apoptotic cells from non-apoptotic cells.

Click and drag to set marker angle. A label displays markers' x and y coordinates and angles.
Click and drag to set markers. A label displays markers' x and y coordinates and angles.

FAM-Peptide vs SR-Peptide, three-color data with quadrant markers differentiating mid- and late-apoptotic cells from non-apoptotic cells.
9 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
guava Caspase Analysis 9 - 15

10 You can apply gate and/or markers settings from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
11 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name. Results for two-color data are automatically exported to a CSV file that is given the same name as the FCS file. See "Selecting Statistics for the Spreadsheet File" on page 9-17 for more information on exporting three-color data to a spreadsheet file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
12 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.
Caspase Results
Caspase results appear immediately after the acquisition of the sample is complete. Statistics for each quadrant are displayed. Results include the count, cells/mL, % Total (all data in the dot plot) or % Gated (if a gate was enabled), and the mean fluorescence intensities for YLW and RED. Additionally, the SR-Peptide (or FAM-Peptide)positive (upper-right and lower-right quadrants) and 7-AADpositive (upper-left and upper-right quadrants) are included.
For three-color data, if gates, rather than quadrant markers, were set in plot 2 and/or 3, statistics for events within the gate(s) are displayed.
Statistics for each quadrant, as well as SR-Peptidepositive (UR and LR quadrants) and 7-AAD positive (UL and UR quadrants) are displayed. Results for each quadrant are displayed as a count, cells/mL, and percentage of the total or gated data in the dot plot. Additionally, the mean fluorescence intensities for YLW and RED are also displayed. If a gate was set, the values represent data within the gate. If a gate was set, the number of cells within the gate, as well as the percentage of cells inside and outside the gate are displayed.
9 - 16 guava easyCyte HT System User's Guide

The summary of each quadrant for SR-Peptide (or FAM-Peptide) vs 7-AAD is outlined below.

Quadrant Staining

Population

Color

lower left SR-Peptide (or FAM Peptide)dim/negative, live cells

red

7-AADnegative

lower right SR-Peptide (or FAM Peptide)positive, 7-AADnegative

mid-apoptotic cells blue

upper right

SR-Peptide (or FAM Peptide)positive, 7-AADpositive

late apoptotic and dead cells

green

upper left SR-Peptide (or FAM Peptide)negative,

necrotic cells

pink

7-AADpositive

The summary of each quadrant for SR-Peptide vs FAM-Peptide is outlined below.

Quadrant Staining

Population

Color

lower left SR-Peptidenegative, FAM-Peptide negative

lower right SR-Peptidepositive, FAM-Peptide negative

upper right

SR-Peptidepositive, FAM Peptide positive

upper left SR-Peptidenegative, FAM Peptide positive

live cells

red

apoptotic and/or dead cells
apoptotic and/or dead cells
apoptotic and/or dead cells

blue green pink

Selecting Statistics for the Spreadsheet File
The statistics for two-color data (SR Peptide with 7-AAD or FAM with 7-AAD) are automatically exported to a spreadsheet file. Some statistics for three-color data (SR and FAM with 7-AAD) are automatically exported; however you may select additional statistics to export as well.
1 Open the plot menu from any plot and select CSV Stats Template. The CSV Stats Template dialog box appears allowing you to modify or select additional statistics to export for three-color data files.

Select the plot.
Then select stats for all events or the marker(s) in that plot. Some stats are already selected by default.
Export up to 256 columns.

guava Caspase Analysis 9 - 17

The left side of the screen displays a list of instrument settings and sample information that is always exported to the spreadsheet file. The right side of the screen allows you to select the specific statistics that will be exported for each plot. Some statistics are selected by default. You can select additional statistics and/or deselect the default statistics. When you click OK, the statistic you selected will be remembered the next time you open the CSV Stats Template. · Click to select the statistic for export. Stats are shown for each marker in the plot or
total events in the plot if no markers are set. · Click Reset to ignore any changes made and revert to the stats that were selected
when you opened the CSV Stats Template.
NOTE: If you exceed 256 columns, a warning message appears requesting that you
review and remove stats until there are no more than 256 columns of stats for export.
Exporting Caspase Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel. All statistics, as well as sample information and instrument settings, for two-color data will be exported. For three-color data, some statistics are exported with the sample information and instrument settings. To select additional statistics or deselect the default statistics, refer to "Selecting Statistics for the Spreadsheet File" on page 9-17.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.
Exporting Caspase Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application. 1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0.
You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
9 - 18 guava easyCyte HT System User's Guide

Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print.
1 Select any sample from the Analyze Sample List and click Print. The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Batch Printing
If you wish to print data from multiple samples, highlight the samples in the Sample Analysis List control panel, then click Print. Note that when printing in batch mode:
· Print preview is not available. · The number of pages to print shown in the print dialog box refers to the number of
pages each sample will print on (typically 2 per sample) and not to the total number of pages that will be printed. · You can select to print only the 1st page or 2nd page for each sample.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

Caspase Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.

guava Caspase Analysis 9 - 19

Sample Information

Original Sample Data
· Displays the sample #. This number defaults to 1 and advances at the completion of sample acquisition.
· Displays the Sample ID for the individual sample.
· Displays the number of events to acquire. The default is 2000 for two-color assays and 3000 for three-color assays.
· The progress bar provides an estimate of the target event count during acquisition.
Cell Count Displays the total number of cells and cells/µL that have exceeded the FSC threshold. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

Unit Control

Detection Displays laser status, FSC gain, and the SSC (if installed), GRN, YLW, and RED voltage settings. Only the parameters for the selected reagent combinations appear. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the offset and threshold settings for FSC and the baseline values for GRN, RED, YLW, SSC, and FSC.
NOTE: You can edit the Threshold units during the adjust
settings step by typing a value in the field. Do not change the voltages from this panel. Use the sliders to adjust the voltages. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

9 - 20 guava easyCyte HT System User's Guide

guava Caspase Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save Caspase spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save Caspase FCS file to another directory or give it a new name.

Caspase Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Particle Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

guava Caspase Assay Troubleshooting 9 - 21

Problem

Possible Cause

Solutions

Unexpected events

1. Laser not warmed up.

appearing in a two-color dot

plot.

2. Threshold set too low or

debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in gating dot Gate excludes events. plot but not in analysis dot plot.

Ensure gate is set to include population of interest.

Poor resolution between Caspase Reagentpositive and Caspase Reagent negative populations.

1. Voltage too low to detect 1. Adjust settings to increase

fluorescence signal.

2. Incomplete staining with 2. Refer to package insert for

Caspase Reagent.

proper staining

instructions.

3. Incomplete induction of 3. Check induction control.

apoptosis in test

suspension.

4. Uninduced population

4. Stabilize unstained cells by

reacting with Caspase

resuspending in 1020%

Reagent because cells

FBS for 30 min and restain.

have been stressed.

5. Apoptotic bodies included 5. Adjust FSC threshold or

in analysis.

set gate to remove debris.

6. Caspase Reagent expired 6. Refer to package insert for

or not stored properly.

proper storage instructions.

Do not use expired reagent

or reagent exposed to light.

7. Background noise too high. 7. Adjust settings to increase

FSC threshold to remove

debris.

8. Fluorescence background 8. Washing cells may remove

too high.

residual reagent.

9 - 22 guava easyCyte HT System User's Guide

Problem
Poor resolution between 7-AAD+ and Caspase Reagentpositive populations.
Events appear off scale in dot plots.

Possible Cause

Solutions

1. High viability sample.

1. Resolution may be difficult

if few dead cells in sample.

2. Incomplete staining with 2. Check 7-AAD expiration

7-AAD.

date.

3. Too much Caspase

3. Washing cells may remove

Reagent in staining tube.

residual reagent.

4. Fluorescence background 4. Washing cells may remove

too high.

residual reagent.

5. Fluorescence signal too 5. Adjust settings to reduce

high causing Caspase

voltage corresponding to

Reagent to overlap into

parameter used to detect

other fluorescence

Caspase Reagent.

parameter.

6. RED voltage too low to

6. Adjust settings to increase

optimally detect 7-AAD

RED voltage.

signal.

7. Background noise too high. 7. Adjust settings to increase

FSC threshold to remove

debris.

GRN, YLW, and /or RED voltages set incorrectly, or samples staining brightly.

Adjust settings to increase or decrease GRN, YLW, and/or RED voltages so positive populations appear on scale. Repeat Adjust Settings with negative sample.

guava Caspase Assay Troubleshooting 9 - 23

9 - 24 guava easyCyte HT System User's Guide

CHAPTER 10 guava TUNEL Assay
Introduction
Apoptosis, or programmed cell death, is an important regulatory pathway of cell growth and proliferation. A distinctive marker along the apoptotic pathway to cell death is the degradation of chromatin structure and nuclear DNA by activated nucleases. Chromatin is degraded into fragments of 50 to 300 kb, and subsequently into smaller 200 bp pieces of DNA. The fragmentation of DNA during apoptosis generates exposed 3'-hydroxyl ends in the nuclear DNA. In the guava TUNEL Assay, terminal deoxynucleotidyl transferase (TdT) catalyzes the incorporation of BrdU residues into the fragmenting nuclear DNA at the 3'-hydroxyl ends by nicked end labeling. TRITC-conjugated anti-BrdU antibody binds to the incorporated BrdU residues, labeling the apoptotic cells. Two populations of cells can be distinguished: · Non-apoptotic cells TRITC-negative (or TUNEL-negative) · Apoptotic cells TRITC-positive (or TUNEL-positive) The guava TUNEL Assay quantifies cells at mid- to late-stage apoptosis, when DNA degradation is occurring. By discrimination of the relative percentage of positively stained cells, the extent of apoptosis can be determined in the cell population of interest. To run the assay, follow the instructions in the Guava PCA-96 TUNEL Reagent package insert to stain the cells. Acquire samples on the guava easyCyte HT System using guavaSoft Software. Data are displayed in a single-parameter histogram. You can set two or three markers to analyze non-apoptotic and apoptotic cells. Statistics for each population within the histogram include percentage of total, percentage of gated, cells/mL, FSC intensity, and PM1 mean fluorescence intensity. The guava TUNEL data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you selected to save FCS 2.0 files. In addition to the saved data file, all results, instrument settings, and the acquisition summary information are exported to a spreadsheet file.
Introduction 10 - 1

Running the guava TUNEL Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "TUNEL Software Module Control Panels" on page 10-13. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information. 2 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click TUNEL from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or 0.5-mL tubes. Refer to the Guava PCA-96 TUNEL Reagent package insert for information.
5 Click Start Worklist. The sample tray ejects. A dialog box appears prompting you to load samples.
10 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

Running the guava TUNEL Assay 10 - 3

8 A dialog box appears prompting you to select the worklist file. Select the worklist file for the current run and click Open.
Select a worklist file and click Open.
9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
10 - 4 guava easyCyte HT System User's Guide

11 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends using a stained negative (non-apoptotic or uninduced) control sample. Click to select the well/tube used to adjust settings, then click OK.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data. 12 Check the Cells/µL value in the Sample Information control panel and ensure that it is below 500 cells/µL.
NOTE: If the value is greater than 500, click Abort, then click Eject Tray. Dilute the
sample with Rinsing Buffer to lower the concentration to <500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings. 13 If you need to fine tune the settings, you can make the following adjustments once events start to appear on the screen: · Click the log check box to display a log scale. · Set the Refresh Rate to the number of events you want to display. · Set the Flow Rate to Low (0.24 µL/s) or Medium (0.59 µL/s). · Use the FSC Gain setting to reduce or amplify the FSC signal so that the cells are visible and on scale. · To adjust the FSC threshold, click and drag the vertical marker up or down the FSC axis of the FSC vs PM1 dot plot until the desired amount of debris is eliminated below the marker.
NOTE: When setting the threshold, allow for a possible shift to the left in the apoptotic
cell population. Any debris that gets acquired can be excluded with the optional dot plot gate during analysis. · Adjust the voltage (using the PM1 slider or the arrow keys on the keyboard) so that the negative population is positioned in the first decade of the PM1 histogram. Adjust the voltage by starting from a lower voltage setting and gradually increasing the voltage.
Running the guava TUNEL Assay 10 - 5

· If necessary, use the Count Scale field to the left of the histogram to adjust the y-axis scale.
14 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples such as the positive control are on scale and appropriately positioned by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s).
10 - 6 guava easyCyte HT System User's Guide

15 Click Resume. The system acquires the first sample and displays the results. The tube/well currently being acquired is highlighted in red.
ACQUISITION NOTES
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 2 minutes.
16 EMD Millipore recommends setting a gate and adjusting the markers prior to acquiring the remaining samples. Click Pause during the acquisition of the first sample. The system will pause when the acquisition is complete. Once the system is paused, adjust the gate and/or marker(s), then click Resume. The remaining samples are automatically acquired. Refer to "Optional Dot Plot Gate" on page 10-9 and "Histogram Markers" on page 1010 for information on setting a gate and markers.
The system automatically performs a Quick Clean at the end of the assay.
Running the guava TUNEL Assay 10 - 7

guava TUNEL Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 files or a spreadsheet file. You can save changes made to the sample ID, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. 1 Click TUNEL from the main menu. 2 Click Go to Analysis from the Acquisition screen.
10 - 8 guava easyCyte HT System User's Guide

3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. The marker setting appears as it was when the sample was acquired. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
Optional Dot Plot Gate
The dot plot gate is optional. It allows you to remove excess debris or unwanted events from the FSC vs PM1 dot plot. The TUNEL Results are updated each time you adjust the gate. 4 Click Enable Gating to turn on the gate. 5 To set the gate, position the cursor over the upper-left handle. Click and drag the
handle to a new location. Repeat with the lower-right handle. Events that fall within the center square appear red and are included in the gate.
guava TUNEL Analysis 10 - 9

You may also set the gate by entering the coordinates in the Marker Position fields and clicking Set. The gated data appears in the PM1 Fluorescence histogram.
NOTE: If using a negative control to set the gate, be sure to extend the gate high
enough up the y-axis (as shown) so that PM1-positive events in subsequent samples are included in the gate.

Enter coordinates to set gate.
Click to turn on gate markers.

Click and drag handles to manually set gate. A label displays handle's current x and y coordinates.

Histogram Markers
The histogram markers allow you to get statistics on any population within the PM1 parameter. You can set two or three markers to identify and generate statistics on the non-apoptotic population and up to two apoptotic populations. The TUNEL Results are automatically updated each time you move the markers.
6 To set the PM1 histogram markers, click and drag either side of the marker to size it. Click the horizontal line to drag the entire marker. You cannot overlap markers 1 and 2. Events that fall within marker 1 appear in pink, events that fall within marker 2 appear in light green. You may also set the marker by entering the coordinates in the Marker Position fields and clicking Set.

Enter coordinates to set gate.
Select number of markers. Adjust histogram scale.

Click and drag either end to manually set gate. A label displays marker's minimum and maximum x-axis positions. Click center of marker to drag entire marker.

PM1 histogram markers 1 and 2 selecting non-apoptotic (pink) and apoptotic (light green) cells, respectively.

10 - 10 guava easyCyte HT System User's Guide

7 To set a third marker, click the Number of Markers up arrow. Adjust the marker appropriately. You can extend marker 3 to any position.
Select number of markers.
PM1 histogram with marker 3 activated and selecting apoptotic cells (blue), if applicable.
8 Click Next under Sample List Navigation in the Sample information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
9 You can apply gate and/or markers settings from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
10 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples. 11 If you wish to view the event log, click View Event Log. Refer to "Event Log" on
page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.
guava TUNEL Analysis 10 - 11

TUNEL Results
TUNEL Results appear immediately after the acquisition of the sample is complete. Results include the statistics within each marker--percentage of total, percentage of gated, cells/mL, FSC intensity, and the PM1 mean fluorescence intensity. % Gated values appear only if a gate was set.
Statistics for each marker set are displayed. If a gate was set, the values represent data within the gate. Results include % Total, % Gated (results appear only if a gate is enabled), cells/mL, FSC intensity, and PM1 mean fluorescence intensity.
Exporting TUNEL Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet. 2 Select the folder where you want to save the file, and enter a file name. Click Save.
Exporting TUNEL Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application. 1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0.
You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files. 2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
10 - 12 guava easyCyte HT System User's Guide

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

TUNEL Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.
Sample Information
Original Sample Data · Displays the sample #. This number defaults to 1 and advances
at the completion of sample acquisition.
· Displays the Sample ID for the individual sample.
· Displays the number of events to acquire. The default is 2000.
· The progress bar provides an estimate of the target event count during acquisition.
Cell Count Displays the total number of cells and cells/µL that have exceeded the FSC threshold. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava TUNEL Analysis 10 - 13

Unit Control

Detection Displays laser status and the PM1 voltage setting and the FSC gain. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the FSC and PM1 offset and threshold settings.
NOTE: You can edit the Threshold units during the adjust
settings step by typing a value in the field. Do not change the PM1 voltage from this panel. Use the PM1 slider to adjust the PM1 voltage. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava TUNEL Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save TUNEL spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save TUNEL FCS file to another directory or give it a new name.

TUNEL Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

10 - 14 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Particle Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Poor resolution between TRITC+ and TRITC populations.

1. Fluorescence background too high.
2. PM1 voltage too low to detect PM1 signal.
3. Incomplete induction of apoptosis in test suspension.
4. Reagent expired or not stored properly.

1. Washing cells may remove residual reagent. Wash with Rinsing Buffer or PBS.
2. Adjust settings to increase PM1 signal.
3. Check induction control.
4. Refer to package insert for proper storage instructions. Do not use expired reagent or reagent exposed to light.

guava TUNEL Assay Troubleshooting 10 - 15

Problem

Possible Cause

Apoptotic population shows Sample was not stained

dim TRITC signal.

completely.

Staining artifacts appear in dot plot or histogram.

Cells were not properly resuspended in the DNA Labeling Mix or Anti-BrdU Staining Mix.

Solutions
1. Increase the incubation time during the DNA labeling reaction.
2. Increase the amount of TdT enzyme. Refer to the Guava TUNEL Kit package insert.
3. Ensure reagent is not expired or was not exposed to excessive light.
1.Apirate carefully to avoid disturbing pellet.
2. Wash sides of tube when resuspending cells.

10 - 16 guava easyCyte HT System User's Guide

CHAPTER 11 guava MitoPotential Assay
Introduction
The guava MitoPotential Assay is a fluorescence-based assay designed to determine mitochondrial activity in apoptosis and other cellular processes. Loss of mitochondrial inner transmembrane potential is often observed to be associated with the early stage of apoptosis. Collapse of this potential is believed to coincide with the opening of the mitochondrial permeability transition pores, leading to the release of cytochrome C into the cytosol, which then triggers the downstream events in the apoptosis cascade.
The Guava MitoPotential Kit contains JC-1, a cationic dye used to evaluate mitochondrial membrane potential changes. JC-1 fluoresces either green or orange depending upon membrane potential. When the mitochondria are polarized, the dye accumulates in the mitochondria, forming J-aggregates, which fluoresce orange (~590 nm). When the mitochondria lose their membrane potential and become depolarized, the concentration of dye decreases, the J-aggregates dissociate and now JC-1 fluoresces green (~530 nm). A viability stain, 7-AAD, is also included in the assay to monitor cell membrane permeability changes commonly observed later in apoptosis and in cell death.
To run the MitoPotential Assay, follow the instructions in the Guava MitoPotential Kit package insert to prepare your samples. Acquire the samples on the guava easyCyte HT System using guavaSoft Software. Data are displayed in three dot plots. A gating dot plot, which shows forward scatter (FSC) vs fluorescence of either JC-1 Green (PM3), 7-AAD Red (PM2), or JC-1 Orange (PM1), allows you to set a counting gate and eliminate unwanted events and debris from the analysis. Plot 2, which displays JC-1 Green (PM3) vs JC-1 Orange (PM1), allows you to set quadrant markers to distinguish polarized cells from depolarized cells. Plot 3, which displays 7-AAD Red (PM2) versus JC-1 Orange (PM1), allows you to set a viability marker to distinguish late apoptotic/dead cells from early apoptotic/live cells.
Statistics for the analysis dot plots include the cell count, cells/mL, and mean signal intensity for the depolarized cells and apoptotic cells. Additionally, the data are expressed as a percentage of the total data within the plot and as a percentage of data within the gate.
The MitoPotential data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you selected to
Introduction 11 - 1

save FCS 2.0 files. In addition to the saved data file, all results, instrument settings, and the acquisition summary information is exported to a spreadsheet file.
Running the guava MitoPotential Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "MitoPotential Software Module Control Panels" on page 11-14. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information. 2 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click MitoPotential from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or 0.5-mL tubes. 5 Click Start Worklist on the guava MitoPotential screen.
The sample tray ejects. A dialog box appears prompting you to load samples.
11 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

Running the guava MitoPotential Assay 11 - 3

11 A dialog box appears prompting you to select the sample for adjusting settings. Select a sample that is 2070% induced. Click to select the well/tube used to adjust settings, then click OK.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data. 12 Check the Cells/µL value in the Sample Information control panel and ensure that it is less than or equal to 500.
NOTE: If the value is greater than 500, click Abort, then click Eject Tray.
Dilute the sample with dye solution in medium to lower the concentration to <500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings. 13 If you need to fine tune the settings, you can make the following adjustments once events start to appear on the screen:
NOTE: You may change the y-axis label of the Gating Dot Plot (Plot 1) by right-
clicking the label and selecting the new parameter from the pop-up menu. · Set the Refresh Rate to the maximum number of events you want to display. · Set the Flow Rate to Low (0.24 µL/s), or Medium (0.59 µL/s). The recommended
flow rate is Medium. · Use the FSC Gain settings to reduce or amplify the FSC signal so that the cells are
visible and on scale. · To adjust the FSC threshold, click and drag the threshold marker (dotted red line) up
or down the axis of Plot 1 until the desired amount of debris or other unwanted events are eliminated below the threshold.
NOTE: When setting the threshold, place it at least 2 to 3 mm to the left of the cell
population to ensure that you are not excluding cells. · Adjust the voltages (using the PM1, PM2, and/or PM3 sliders, or the arrow keys on
the keyboard). Adjust PM1 so that the polarized cells (upper-left quadrant) are between 10e2 and 10e3. Adjust PM3 so that the polarized cells are at approximately 10e1. If you need to increase a voltage setting, start from a lower setting and gradually increase the voltage. If you need to decrease a voltage
Running the guava MitoPotential Assay 11 - 5

setting, do so gradually, allowing a few seconds for the PMT to equilibrate to the new voltage.
· You may need to adjust PM2%PM1 compensation to eliminate the JC-1 Orange that may overlap into the Red (PM2) channel for some cell lines. To adjust the compensation, use the slider or click on the slider and use the up arrow key to slowly increase compensation.
14 You may set gates and markers prior to acquiring the samples. Refer to "Dot Plot Gate" and "Quadrant Markers" on page 11-10 for information. If you wish to apply a counting gate, click Enable Counting Gate below Plot 1, then set the region. You can select and set the count gate from the Adjust Settings screen only.
15 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples (such as another positive control) are on scale, appropriately positioned, and compensated, by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s).
11 - 6 guava easyCyte HT System User's Guide

16 Click Resume. The system acquires the first sample and automatically displays the results. The tube/ well currently being acquired is highlighted in red.
ACQUISITION NOTES
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 2 minutes.
The system automatically performs a Quick Clean at the end of the assay.
guava MitoPotential Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 files or a spreadsheet file. You can save changes made to the sample ID, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis
guava MitoPotential Analysis 11 - 7

screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. 1 Click MitoPotential from the main menu. 2 Click Go to Analysis from the Acquisition screen.
3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. The marker settings appear as they were when the sample was acquired. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
11 - 8 guava easyCyte HT System User's Guide

Ensure that the gates and markers are set appropriately for negative and positive controls. Adjust if necessary.
Gates
If you did not set a counting gate prior to acquisition, you can set a gate in Plot 1 during analysis. The gate is applied to the data displayed in Plots 2 and 3.
Dot Plot Gate
The dot plot gate allows you to exclude debris and unwanted events from the analysis. 4 To change the y-axis, right-click the axis label and select the new parameter from the
pop-up menu. 5 Click Enable Counting Gate below Plot 1 to turn on the gate.
guava MitoPotential Analysis 11 - 9

6 To set the gate, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-right handle. Events that fall within the center rectangle and appear in red are included in the gate.
NOTE: If using the negative control to set the gate, be sure to extend the gate high
enough up the y-axis so that PM-positive events in subsequent samples are included in the gate.

Right-click to change y-axis parameter.
Click to turn on gate. Dot plot gate to remove debris.

Click and drag handles to manually set gate. A pop-up label displays handle's current x and y coordinates.

Markers for Statistics
Use Plot 2 and Plot 3 to set quadrant markers and a viability marker, respectively, to generate statistics on all the data acquired or the data within the analysis gate.
Quadrant Markers
7 To set quadrant markers, position the cursor over the handle at the intersection, then click and drag to the desired location If necessary, you can adjust the angle of the markers ±44° from their original locations. Click and drag the handle (solid square) towards the end of the marker and tilt it to the desired location.

Click and drag to set marker angle. A label displays markers' x and y coordinates and angle.
Click and drag to set markers. A label displays markers' x and y coordinates.
Quadrant markers set on induced sample.

11 - 10 guava easyCyte HT System User's Guide

Viability Marker
You can adjust the location and angle of the viability marker in Plot 3. The viable cells appear in burnt orange to the left of the marker. The dead cells appear in lime green to the right of the marker.
· To adjust the angle of the marker, click and drag the top of the line to tilt it to the desired location.
· To move the entire marker to the left or right, click and drag the bottom of the line to shift it to the desired location.

Click and drag bottom of line to move location.

Click and drag top of line to adjust angle.

Viability marker adjusted to separate viable cells (left) from apoptotic and dead cells (right).

8 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
9 You can apply gate and/or markers settings from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
10 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
11 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.

guava MitoPotential Analysis 11 - 11

guava MitoPotential Results
The statistics provide you with the count, cell concentration, % and mean signal intensities for all data in the plot (% of Total) or for data within the gate (% of Gated).

Results Table
MitoPotential quadrant statistics.

The quadrant statistics provide the count, cells/mL, and PM1 and PM3 mean signal intensities for the populations within each quadrant of Plot 2. Additionally, the % of Total or Gated shows the percentage of the data displayed in that plot or the subset of data within the gate. Apoptotic/Dead Cells provides similar statistics for the dead cell data in Plot 3.
The Gated Events shows the number of events in the count gate (if one was set), the total count (all events acquired), and the gated events as a percent of all events, and the FSC mean intensity.

The summary of each quadrant is outlined in the table below:

Quadrant

Staining

lower left lower right upper right upper left

depolarized cells 3 (PM3 dim, PM1 dim) depolarized cells 2 (PM3 bright, PM1 dim) depolarized cells 1 (PM3 bright, PM1 bright) polarized cells (PM3 dim, PM1 bright)

Color
teal blue pink purple

The summary of the data on either side of the viability marker is outlined in the table below:

Marker

Staining

Color

left

viable cells (PM1 positive, PM2 negative)

burnt orange

right

dead cells (PM1 positive, PM2 positive)

lime green

11 - 12 guava easyCyte HT System User's Guide

Exporting MitoPotential Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.
Exporting MitoPotential Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application. 1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0.
You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print. 1 Select any sample from the Analyze Sample List and click Print.
The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

guava MitoPotential Analysis 11 - 13

MitoPotential Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.

Sample Information

Original Sample Data
· Displays the sample #. This number defaults to 1 and advances at the completion of sample acquisition.
· Displays the Sample ID for the individual sample.
· Displays the number of events to acquire. The default is 2000.
· The progress bar provides an estimate of the target event count during acquisition.
Cell Count Displays the total number of cells and cells/µL that have exceeded the FSC threshold. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

11 - 14 guava easyCyte HT System User's Guide

Unit Control

Detection Displays the laser status, the PM1, PM2, and PM3 voltage settings, and the FSC gain.
NOTE: Do not change the voltages from this panel. Use the
sliders in Adjust Settings to adjust the PM1, PM2, and PM3 voltages. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the offset and threshold settings for the threshold parameter. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava MitoPotential Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save MitoPotential spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save MitoPotential FCS file to another directory or give it a new name.

MitoPotential Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

guava MitoPotential Assay Troubleshooting 11 - 15

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Cell Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in plots displaying PM1, PM2, or PM3.

1. Laser not warmed up.
2. Instrument settings not optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell Count shows events, but there are no events in plots displaying PM1, PM2, and/ or PM3.

1. Sample was not stained. 2. Cell lysis.

1. Check sample. If necessary, restain sample from original suspension.
2. Check buffers used to process cells.

Events appear in Plot 1 but Plot 1 gate excludes events, Set Plot 1 gate to include

not in Plot 2 or Plot 3.

and gate is applied to Plot 2 population of interest.

and Plot 3.

11 - 16 guava easyCyte HT System User's Guide

Problem
Events appear off scale in dot plots or histograms.
Poor resolution between positive and negative populations.

Possible Cause

Solutions

FSC gain or PM1, PM2, and / Adjust gain setting or voltage

or PM3 voltages set

settings so positive

incorrectly, or samples

populations appear on scale.

staining brightly.

Repeat Adjust Settings with

negative sample. Adjust

compensation settings.

1. Voltages too low to detect 1. Adjust settings to increase

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

2. Voltages too high to detect 2. Adjust settings to decrease

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

3. Incomplete staining with 3. Ensure positive control is

JC1 and/or 7-AAD.

staining adequately.

Otherwise, titer reagents to

determine optimal

concentration.

4. Reagents over-exposed to 4. Refer to reagent package

light, stored improperly, or insert for proper storage

expired.

instructions. Do not expose

reagent to excessive light.

Do not use expired

reagents.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris. Or, wash stained

sample and reacquire.

guava MitoPotential Assay Troubleshooting 11 - 17

Problem

Possible Cause

Solutions

Poor resolution between 1. Incomplete staining with 1. Check expiration date and

positive populations in plots reagent(s), cell

amount of reagent(s) used

displaying PM1, PM2, and/ concentration too high, or in staining. Ensure sample

or PM3.

staining time too short.

is not too concentrated.

Ensure staining time was

appropriate (see package

insert).

2. Too much reagent in

2. Titer both dyes to

staining tube.

determine their optimum

concentration. Repeat

experiment with optimized

reagents.

3. Voltage too high causing 3. Adjust settings to reduce

signal to bleed into other

voltage. Adjust

parameters.

compensation settings.

4. Voltage too low to optimally 4. Adjust settings to increase

detect positive signal.

voltage. Adjust

compensation settings.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris.

Cell concentration decreases during acquisition.

1. Cells are settling.
2. Adherent cells are reattaching.

1. Be sure that samples are mixed prior to acquisition.
2. Use low-binding, 96-well plates. If that is not sufficient to prevent reattachment, lower the FBS in the medium to 5%.

11 - 18 guava easyCyte HT System User's Guide

CHAPTER 12 guava Cell Cycle Assay
Introduction
Cell cycle describes the stages of replication and division of chromosomes within the nucleus, which occurs prior to a cell dividing. Cancer cells develop when the normal mechanisms for regulating the cell cycle are disrupted. It is important to identify the genetic basis for this disruption and to develop therapies to preferentially target those cells with abnormalities. One of the most rapid ways of screening potentially therapeutic drugs, or the effects of specific genes on the cell cycle, is to measure changes in cell cycle kinetics under varying conditions. For cells to divide they must first duplicate their DNA. By labeling nuclear DNA with propidium iodide (PI) you can discriminate cells at different stages of the cell cycle (see figure). Resting cells (G0/G1 phase) contain two copies of each chromosome. As cells begin cycling, they synthesize chromosomal DNA (S phase). Fluorescence intensity from intercalating PI increases, until all chromosomal DNA has doubled (G2/M phase). At this stage, the G2/M cells fluoresce with twice the PI intensity of the G0/G1 population. The G2/M cells eventually divide into two cells. Although a third-party "curve-fitting" software package such as ModFitTM can more accurately identify the three phases of the cell cycle and calculate the relevant statistics, you may use guavaSoft Software to identify the populations and estimate the number of cells within each phase. To run the assay, stain the cells according to the Guava Cell Cycle Reagent package insert. Acquire samples on the guava easyCyte HT System using guavaSoft Software. Data are displayed in a single-parameter histogram. You can set up to four markers to analyze the various populations. Statistics for each population within the histogram include percentage of positive, PM2 mean and median, % PM2 histogram CV, and count. The guava Cell Cycle data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you selected to save FCS 2.0 files. In addition to the saved data file, all results, instrument settings, and the acquisition summary information are exported to a spreadsheet file.
Introduction 12 - 1

Running the guava Cell Cycle Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "Cell Cycle Software Module Control Panels" on page 12-13. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information.
NOTE: EMD Millipore recommends programming the worklist for a Quick Clean at
least every 24 samples. 2 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click Cell Cycle from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or 0.5-mL tubes. Refer to the Guava Cell Cycle Reagent package insert for information.
5 Click Start Worklist. The sample tray ejects. A dialog box appears prompting you to load samples.
12 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

Running the guava Cell Cycle Assay 12 - 3

8 A dialog box appears prompting you to select the worklist file. Select the worklist file for the current run and click Open.
Select a worklist file and click Open.
9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
12 - 4 guava easyCyte HT System User's Guide

11 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends using a stained negative (untreated) control sample. Click to select the well/tube used to adjust settings, then click OK.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data.
12 Check the Cells/µL value in the Sample Information control panel and ensure that it is between 25 and 1200 cells/µL.
NOTE: If the value is greater than 1200, click Abort, then click Eject Tray. Dilute the
sample with Cell Cycle Reagent to lower the concentration to <1200 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings.
13 If you need to fine tune the settings, you can make the following adjustments once events start to appear on the screen: · Set the Refresh Rate to the number of events you want to display. · Set the Flow Rate to Very Low (0.12 µL/s) or Low (0.24 µL/s). · Use the FSC Gain setting to reduce or amplify the FSC signal so that the cells are visible and on scale. · To adjust the FSC threshold, click and drag the vertical marker up or down the FSC axis of the FSC vs PM2 dot plot until the desired amount of debris is eliminated below the marker. · Adjust the voltage (using the PM2 slider or the arrow keys on the keyboard) so that the G0/G1 population is positioned at approximately 1024 on the PM2 histogram. Adjust the voltage by starting from a lower voltage setting and gradually increasing the voltage. · If necessary, use the Count Scale field to the left of the histogram to adjust the yaxis scale.
NOTE: If you want the gate enabled during acquisition, click Enable Gating. During
acquisition this gate can be used for counting. All events above the FSC threshold are saved to the file whether they are in the gate or not. However, the number of Events to Acquire is applied to events that fall within the gate. You cannot enable or change the gate once you click Next Step. You can enable it to exclude debris when you open the saved data file during analysis.
Running the guava Cell Cycle Assay 12 - 5

NOTE: If you wish to display the data in a FSC linear scale, click to remove the check
mark from the Log check box.
14 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples such as the positive control are on scale and appropriately positioned by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s).
12 - 6 guava easyCyte HT System User's Guide

15 Click Resume. The system acquires the first sample and displays the results. The tube/well currently being acquired is highlighted in red.
ACQUISITION NOTES
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 10 minutes.
16 EMD Millipore recommends setting a gate and adjusting the markers prior to acquiring the remaining samples. Click Pause during the acquisition of the first sample. The system will pause when the acquisition is complete. Once the system is paused, adjust the marker, then click Resume. The remaining samples are automatically acquired. Refer to "Optional Dot Plot Gate" on page 12-9 and "Histogram Markers" on page 1210 for information on setting a gate and markers.
The system automatically performs a Quick Clean at the end of the assay.
Running the guava Cell Cycle Assay 12 - 7

guava Cell Cycle Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 files or a spreadsheet file. You can save changes made to the sample ID, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. 1 Click Cell Cycle from the main menu. 2 Click Go to Analysis from the Acquisition screen.
12 - 8 guava easyCyte HT System User's Guide

3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. The marker setting appears as it was when the sample was acquired. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
Optional Dot Plot Gate
The dot plot gate is optional. You can enable it during the adjust settings step or during analysis after the data set has been saved. During analysis, it allows you to remove excess debris from the FSC vs PM2 dot plot. The Cell Cycle Results are updated each time you adjust the gate. 4 Click Enable Gating to turn on the gate. 5 To set the gate, position the cursor over the upper-left handle. Click and drag the
handle to a new location. Repeat with the lower-right handle. Events that fall within the center square appear red and are included in the gate.
guava Cell Cycle Analysis 12 - 9

You may also set the gate by entering the coordinates in the Marker Position fields and clicking Set.

Enter coordinates to set gate.
Click to turn on gate markers.

Click and drag handles to manually set gate. A label displays handle's current x and y coordinates.

Histogram Markers
The histogram markers allows you to get statistics on any population within the PM2 parameter. You can set up to four markers to identify and generate statistics on the G0/G1, S-phase, and G2/M populations. The PM2 Results are automatically updated each time you move the markers. To analyze the data within the dot plot gate, click Enable Gating to the left of the dot plot, then click Dot Plot Gated.
6 To set the PM2 histogram markers, click and drag either side of the marker to size it. Click the horizontal line to drag the entire marker. Events that fall within marker 1 appear in pink, events that fall within marker 2 appear in light green, events that fall within marker 3 appear blue, events that fall within marker 4 appear brown. Because the default is non-overlapping markers, when you move the left side of marker 2, the right side of marker 1 will move automatically. You may also set the markers by entering the coordinates in the X1 and X2 fields and clicking Set. You may overlap the markers by clicking Allow Overlapping Gates. Be aware that events falling within two markers will be counted twice. Marker 4 can overlap even if Allow Overlapping Gates is not selected.

Enter coordinates to set gate.
Select number of gates and whether they should overlap.
Adjust scale.

Click and drag either end to manually set gate. A label displays marker's minimum and maximum x-axis positions. Click center of marker to drag entire marker.
Click to display gated data.

PM2 histogram markers 1, 2, and 3 selecting diploid G0/G1 cell (pink), S phase (light green), and G2/M cells (blue).

12 - 10 guava easyCyte HT System User's Guide

7 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
8 You can apply gate and/or markers settings from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
9 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
10 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.
Cell Cycle Results
Cell Cycle results appear immediately after the acquisition of the sample is complete. The results provide an estimate of the number of cells within each phase. For more accurate results, analyze data using a third-party, curve-fitting software program. To analyze data using a third-party application, export the data to FCS 2.0 files. See "Exporting Cell Cycle Results to an FCS 2.0 File" on page 12-12. Cell cycle results include the percentage, mean, median, %CV, and count for the data within each marker.
Statistics for the data within each marker include percentage, mean, median, % CV, and count. If a gate was set, the values represent the gated data.
guava Cell Cycle Analysis 12 - 11

Exporting Cell Cycle Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically.
1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.
Exporting Cell Cycle Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application.
NOTE: The AutoSave FCS files 2.0 checkbox in the Sample Information control panel
is checked by default for the Cell Cycle Assay. Therefore, FCS 2.0 files are automatically saved.
1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0. You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print.
1 Select any sample from the Analyze Sample List and click Print. The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

12 - 12 guava easyCyte HT System User's Guide

Cell Cycle Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.
Sample Information
Original Sample Data · Displays the sample #. This number defaults to 1 and advances
at the completion of sample acquisition. · Displays the Sample ID for the individual sample. · Displays the number of events to acquire. The default is 5000. If
you enable the gate during the adjust settings step, the number of events applies to events that fall within the gate. · The progress bar provides an estimate of the target event count during acquisition. Cell Count Displays the total number of cells and cells/µL that have exceeded the FSC threshold, as well as the cells/µL in the gate. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.
guava Cell Cycle Analysis 12 - 13

Unit Control

Detection Displays the PM2 voltage setting and FSC gain. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the FSC offset and threshold and the PM2 offset.
NOTE: You can edit the Threshold units during the adjust
settings step by typing a value in the field. Do not change the PM2 voltage from this panel. Use the PM2 slider to adjust the PM2 voltage. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava Cell Cycle Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save Cell Cycle spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save Cell Cycle FCS file to another directory or give it a new name.

Cell Cycle Software Module A registration code was not

starts in Analysis mode. entered or was entered

Acquisition mode is not

incorrectly.

available.

Enter the registration code. The code is case sensitive.

12 - 14 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Particle Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Debris appearing in the PM2 histogram.

FSC threshold set too low.

Increase the FSC threshold to remove as much debris as possible.

Poor resolution among G0/ G1, S, and G2/M phases.

Poor sample quality or

Ensure cells were healthy

protocol not properly followed. and growing prior to fixing

and staining. Ensure proper

protocol was followed and

correct amount of PI was

used.

guava Cell Cycle Assay Troubleshooting 12 - 15

12 - 16 guava easyCyte HT System User's Guide

CHAPTER 13 guava CellPaint Assay
Introduction
Monoclonal antibodies produced by hybridomas have become the preferred source of antibodies for much immunological research. They are specific for single epitopes, highly pure, and available in large amounts. Hybridoma cells are developed and used to produce monoclonal antibodies (mAbs) specific to an antigen of interest. An important step in the production of monoclonal antibodies is to screen the hybridoma supernatants for the presence of the antibody. By painting the antigen-positive control cells with the dye from the Guava EasyCyte CellPaint Kit prior to mixing with the antigen-negative control cells, you can reduce the number or tubes or wells used for screening. Other applications of the Guava EasyCyte CellPaint Kit include monitoring the effects of in vitro stimulation on hetergeneous mixtures of cells in the same tube and tracking painted cells after injection into animals in ex vivo samples. To run the assay, follow the instructions in the Guava EasyCyte CellPaint Kit package insert to stain the cells. Acquire samples on the guava easyCyte HT System using guavaSoft Software. Data are displayed in two dot plots--a gating dot plot and an analysis dot plot. The gating dot plot, which shows forward scatter (FSC) versus either green (PM3) or orange (PM1) fluorescence, can be used to eliminate events such as debris or dead cells from the analysis. The analysis dot plot, which displays green (PM3) fluorescence versus orange (PM1) fluorescence, allows you to set quadrant markers for immediate on-screen results. Statistics for each quadrant in the two-color dot plot include the count, cells/mL, percentage of cells, and mean fluorescence intensity (MFI). The CellPaint data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired or recalled later for analysis. In addition to the saved data file, all results and the acquisition information are exported to a spreadsheet file.
Introduction 13 - 1

Running the guava CellPaint Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "CellPaint Software Module Control Panels" on page 13-15. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information. 2 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click CellPaint from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or tubes. Refer to the Guava EasyCyte CellPaint Kit package insert for information.
5 Click Start Worklist. The sample tray ejects. A dialog box appears prompting you to load samples.
13 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

6 Place the microplate, any sample tubes, and the cleaning tubes in the tray. Make sure well A1 of the plate is in the top-right corner. Load the following 1.5-mL microcentrifuge tubes in these positions:
· Load tubes containing water in positions w2, w4, and w5 (for Quick Clean and washing the capillary and mixer).
IMPORTANT: Always load a tube filled with water in position w4 (for Quick Clean).
· Load empty tubes in positions w3 and w6 (for spinning/drying the mixer).
· Load a tube containing 100 µL of bleach in position w1 (for performing a backflush).

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

Running the guava CellPaint Assay 13 - 3

8 A dialog box appears prompting you to select the worklist file. Select the worklist file for the current run and click Open.
Select a worklist file and click Open.
9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
11 A dialog box appears prompting you to select the sample for adjusting settings. Click to select the well/tube used to adjust settings, then click OK. Use a positive control sample for adjusting the settings. The positive control should consist of a mixture of painted and unpainted cells stained with a monoclonal antibody
13 - 4 guava easyCyte HT System User's Guide

(and orange fluorescent secondary) known to recognize an antigen expressed on the painted cells.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data.
Change plot parameters. Adjust FSC threshold.
12 Open the Sample Information control panel and check the Cells/µL field. For accurate counting, the concentration should be between 10 and 500 cells/µL.
NOTE: If the concentration is greater than 500, click Abort, then click Eject Tray.
Dilute the sample with staining buffer or fixative solution to lower the concentration to <500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings. 13 To fine tune the settings, you can make the following adjustments once events start to appear on the screen: · Select the applicable dot plot axes--FSC vs PM3 or FSC vs PM1. · Set the Refresh Rate to the number of events you want to display.
Running the guava CellPaint Assay 13 - 5

· Set the Flow Rate to Low (0.24 µL/s) or Medium (0.59 µL/s). The recommended flow rate is Medium.
· Use the FSC Gain settings to reduce or amplify the FSC signal so that the cells are visible and on scale.
NOTE: If you wish to display the data in a FSC linear scale, click to remove the check
mark from the Log check box. This is the only chance you will have to select the FSC scale.
· To adjust the FSC threshold, click and drag the threshold marker up or down the FSC axis of the FSC vs PM3 (or FSC vs PM1) dot plot until the desired amount of debris is eliminated below the threshold.
NOTE: When setting the threshold, leave enough debris to ensure that you are not
excluding cells. Any debris that gets acquired can be excluded during analysis with the optional dot plot gate.
· Adjust the voltages (using the PM3 and PM1 sliders or the arrow keys on the keyboard) so that the unpainted, mAb-negative (double-negative) population is positioned in the lower-left corner of the Green (PM3) vs Orange (PM1) plot. These cells should be evenly distributed between 10e0 and 10e1 on both scales. The painted, mAb-positive cells should not be saturated (that is, they should be below 4000 on the PM3 and PM1 scales). Adjust the PMTs by starting from a lower voltage setting and gradually increasing the voltage.
· To adjust compensation, click Next Step, Settings, Adjust Settings, then select the location of the negative control sample. The negative control sample should consist of a mixture of painted and unpainted cells stained with an isotype control antibody and orange fluorescent secondary. The example on page 13-6 shows a mixture of cells that do not react with the mAb-PE conjugate. With no compensation, the PM3/green signal overlaps into the PM1 channel (Figure 1). Use the PM1 compensation slider to adjust the compensation so that the bottom of the PM3/Green-positive population just touches the x-axis (Figure 3). The higher the compensation value the more the unwanted, overlapping signal is removed from the PM1 channel. Do not overcompensate (Figure 4).

Figure 1

Figure 2

Figure 3

Figure 4

green signal in PM3

PM1 - no compensation PM1 - undercompensated PM1 - correct compensation PM1 - overcompensated
· Adjust the quadrant markers so that the painted, mAb-negative cells are in the lower-right quadrant and the two populations of cells--the unpainted, mAbnegative cells (lower left) and the painted, mAb-positive cells (lower right) are
13 - 6 guava easyCyte HT System User's Guide

separated. Refer to "Quadrant Markers" on page 13-11, if necessary.

Unpainted, mAb cells

Painted, mAb cells

Adjust the quadrant markers for the negative control sample.
NOTE: Although is may not be necessary to adjust the PM3 compensation for
samples stained with PE-conjugated mAbs because the signal from PE does not significantly overlap into the PM3 channel, you may check the PM3 compensation by selecting a sample in which the unpainted cells are stained with PE. If you do make additional compensation adjustments, you may need to readjust the quadrant markers.
14 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples are on scale and appropriately positioned by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s).

Running the guava CellPaint Assay 13 - 7

15 Click Resume. The system acquires the first sample and displays the results. The remaining samples are automatically acquired. The tube/well currently being acquired is highlighted in red.
sample results
ACQUISITION NOTES
· If the sample is too dilute or too concentrated, a message appears indicating that the counting accuracy may be compromised. Refer to the Guava EasyCyte CellPaint Kit package insert for the recommended cell concentration and proper dilution instructions.
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 2 minutes.
16 If you need to adjust the markers or enable the gate prior to acquiring the remaining samples, click Pause during the acquisition of the first sample. The system will pause when the acquisition is complete. Once the system is paused, adjust the marker or the gate, then click Resume. Refer to "Quadrant Markers" on page 13-11 for information on setting markers.
The system automatically performs a Quick Clean at the end of the assay.
13 - 8 guava easyCyte HT System User's Guide

guava CellPaint Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 format or a spreadsheet file. You can save changes made to the sample ID, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. This version of the CellPaint Software Module within guavaSoft Software, version 2.7 allows you to open and perform off-line analysis of files acquired using the CellPaint Software Module version within CytoSoft 5.3. 1 Click CellPaint from the main menu. 2 Click Go to Analysis from the Acquisition screen.
guava CellPaint Analysis 13 - 9

3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. The marker settings appear as they were when the sample was acquired. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
Analysis Sample List control panel
Optional Dot Plot Gate
The dot plot gate is optional. It allows you to remove excess debris from the FSC vs Green (PM3)/Orange (PM1) dot plot. The Analysis Results are updated each time you adjust the gate. 4 Select the plot parameters by clicking the appropriate button under Dot Plot Axis to
the left of the plot. Click Enable Gating to turn on the gate. 5 To set a gate, position the cursor over the upper-left handle. Click and drag the handle
to a new location. Repeat with the lower-right handle. Events that fall within the center
13 - 10 guava easyCyte HT System User's Guide

rectangle and appear in red are included in the gate. You may also set the gate by entering the coordinates in the Marker Position fields and clicking Set.
NOTE: Be sure to extend the gate high enough up the y-axis (as shown) so that PM3-
brighter events in subsequent samples are included in the gate.
Select plot parameters.

Enter coordinates to set gate.

Click and drag handles to manually set gate. A pop-up label displays handle's current x and y coordinates.

Gate set on positive control sample
Quadrant Markers
Adjust the quadrant markers on the Green (PM3) vs Orange (PM1) dot plot to generate statistics on the selected populations. The Analysis Results are automatically updated each time you move the markers.
6 To set the markers, position the cursor over the handle at the intersection, then click and drag to the desired location. You may also set the markers by entering the coordinates in the Marker Position fields and clicking Set.
7 If necessary, you can adjust the angle of the markers ±44° from their original location. Click and drag the handle (solid square) towards the end of the marker and tilt the marker to the desired angle.

guava CellPaint Analysis 13 - 11

You may also angle the markers by entering the degrees in the Marker Position Angle fields and clicking Set.

Enter coordinates and angle to set markers.

Click and drag handle to set marker angle. A label displays markers' x and y coordinates and angles.

Click and drag intersection to set markers. A label displays markers' x and y coordinates and angles.
Quadrant markers with painted, mAb-positive cells in the upper-right quadrant and unpainted, mAb-negative cells in the lower-left quadrant

8 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
9 You can apply markers settings from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Then, click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
10 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name.
NOTE: You system administrator may have configured guavaSoft Software to
disable overwriting files. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
11 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.

13 - 12 guava easyCyte HT System User's Guide

CellPaint Results
The results appear immediately after the acquisition of the sample is complete. Statistics for each quadrant are displayed. Results include the count, cells/mL, % Total (all data in the dot plot) or % Gated (if a gate was enabled), and the mean fluorescence intensities for PM3 and PM1.
Quadrant Marker Statistics
Results for each quadrant are displayed as a count, cells/mL, and percentage of the total or gated data in the dot plot. Additionally, the mean fluorescence intensities for PM3 and PM1 are displayed.

CellPaint quadrant marker statistics.

If a gate was set, the number of cells within the gate, as well as the percentage of cells inside and outside the gate are displayed.

The summary of each quadrant is outlined in the table below:

Quadrant

Staining

Population

lower left lower right upper right upper left

Green (PM3) negative, Orange (PM1) negative
Green (PM3) positive, Orange (PM1) negative
Green (PM3) positive, Orange (PM1) positive
Green (PM3) negative, Orange (PM1) positive

negative (unpainted) control cells, mAb negative
positive (painted) control cells, mAb negative
positive (painted) control cells, mAb positive
negative (unpainted) control cells, mAb positive

Color
teal blue pink purple

Exporting CellPaint Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.

guava CellPaint Analysis 13 - 13

Exporting CellPaint Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application.
1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0. You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print.
1 Select any sample from the Analyze Sample List and click Print. The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

13 - 14 guava easyCyte HT System User's Guide

CellPaint Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.
Sample Information
Original Sample Data · Displays the sample #. This number defaults to 1 and advances
at the completion of sample acquisition. · Displays the Sample ID for the individual sample. · Displays the number of events to acquire. The default is 2000. · The progress bar provides an estimate of the target event count
during acquisition. Cell Count Displays the number of cells (total count) detected by the FSC detector, as well as the concentration (cells/µL). Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.
guava CellPaint Analysis 13 - 15

Unit Control

Detection Displays laser status and the PM3 and PM1 voltage settings and the FSC gain. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the FSC offset and threshold settings.
NOTE: You can edit the Threshold units during the adjust
settings step by typing a value in the field. Do not change the voltages from this panel. Use the sliders to adjust the PM3 and PM1 voltages. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava CellPaint Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save CellPaint spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save CellPaint FCS file to another directory or give it a new name.

CellPaint Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

13 - 16 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Particle Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube not properly 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in PM3 vs PM1 dot plot.

1. Laser not warmed up.
2. Threshold set too low or debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in FSC vs FSC vs PM3 gate excludes PM3 dot plot but not in PM3 events. vs PM1 dot plot.

Ensure FSC vs PM3 gate is set to include population of interest.

guava CellPaint Assay Troubleshooting 13 - 17

Problem

Possible Cause

Solutions

Poor resolution between Green (PM3)-positive and double-negative populations.

1. PM3 voltage too low to

1. Adjust settings to increase

detect signal.

Green (PM3) signal.

Repeat compensation

adjustment.

2. Incomplete staining with 2. Refer to package insert for

Guava CFSE reagent.

proper staining

instructions.

3. Debris included in analysis. 3. Adjust FSC threshold or

set gate to remove debris.

4. Guava CFSE expired, or 4. Refer to package insert for

not stored properly.

proper storage instructions.

Do not use expired

reagent. Do not expose

reagent to light.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris.

Poor resolution between 1. Incomplete staining with 1. Check expiration date of

Green (PM3)-positive and orange fluorescent antibody probes and/or titer reagent

double-positive populations. probes.

to optimize staining.

2. Too much Guava CFSE 2. Repeat experiment,

reagent used.

painting cells with a lower

reagent concentration.

3. Fluorescence background 3. Washing cells may remove

too high.

residual reagent.

4. Green (PM3) signal too 4. Adjust settings to reduce

high, causing Guava CFSE PM3 voltage. Repeat

reagent to bleed into

compensation adjustment.

Orange (PM1).

5. PM1 voltage too low to 5. Adjust settings to increase

optimally detect orange

PM1 voltage. Repeat

signal.

compensation adjustment.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris.

Events appear off scale in dot plots.

PM3 and /or PM1 voltages set Adjust settings to increase or

incorrectly, or samples

decrease PM3 and/or PM1

staining brightly.

voltages so positive

populations appear on scale.

Repeat Adjust Settings with

negative sample. Repeat

compensation adjustment.

13 - 18 guava easyCyte HT System User's Guide

CHAPTER 14 guava CellToxicity Assay
Introduction
One of the functions of the immune system is to recognize and destroy targets, such as tumor cells or cells infected with microbes (bacteria or viruses). This is accomplished by effector cells, such as T cells, NK cells, and macrophages or granulocytes, which employ cell-mediated cytotoxicity (CMC), natural killer (NK) activity, and antibody-dependent cellular cytotoxicity (ADCC), respectively. CMC and NK activities are commonly monitored to assess the potency of immune cell stimulation by small molecules, antibodies, or other regulatory molecules; whereas ADCC activity is used to assess the potency of antibodies for therapy. The Guava EasyCyte CellToxicity Kit contains a cell painting dye that differentiates effector or cytotoxic cells from target cells by staining the target cells. Painted target cells are subsequently incubated with unpainted effector cells at various ratios to allow effector cells to function. The dye is retained in the target cell's cytoplasm even after the cell is killed. 7-AAD, a viability stain, is then added to determine to number of painted target cell that have been killed. To run the assay, follow the instructions in the Guava EasyCyte CellToxicity Kit package insert to stain the cells. Acquire samples on the guava easyCyte HT System using guavaSoft Software. Data are displayed in two dot plots--a gating dot plot and an analysis dot plot. The gating dot plot, which shows forward scatter (FSC) versus fluorescence of either Green (PM3) or Red (PM2), allows you to set a counting gate to acquire the same number of target cells across multiple samples regardless of the effector to target ratio. The gate can also be used to eliminate unwanted events such as debris from the analysis. The analysis dot plot, which displays Green (PM3) versus Red (PM2), allows you to set quadrant markers for immediate on-screen results. Statistics for the two-color dot plot include the percent of dead target cells as well as individual quadrant statistics, which include the percentage of cells, cell concentration, and mean fluorescence intensity (MFI).
The CellToxicity data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired or recalled later for analysis. In addition to the saved data file, all results and the acquisition information are exported to a spreadsheet file.
Introduction 14 - 1

Running the guava CellToxicity Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "CellToxicity Software Module Control Panels" on page 14-14. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information. 2 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click CellToxicity from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or tubes. Refer to the Guava EasyCyte CellToxicity Kit package insert for information.
5 Click Start Worklist. The sample tray ejects. A dialog box appears prompting you to load samples.
14 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

Running the guava CellToxicity Assay 14 - 3

8 A dialog box appears prompting you to select the worklist file. Select the worklist file for the current run and click Open.
Select a worklist file and click Open.
9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
11 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends running a sample containing both target and effector cells,
14 - 4 guava easyCyte HT System User's Guide

where you expect that about 50% of the target cells are killed. Click to select the well/ tube used to adjust settings, then click OK.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data.
Change plot parameters. Adjust FSC threshold.
12 Open the Sample Information control panel and check the Cells/µL field. For accurate counting, the concentration should be between 10 and 500 cells/µL.
NOTE: If the concentration is greater than 500, click Abort, then click Eject Tray.
Dilute the sample with Guava® CellToxicity 7-AAD Reagent diluted 1:5 with serumcontaining medium to lower the concentration to <500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings. 13 To fine tune the settings, you can make the following adjustments once events start to appear on the screen: · Select the applicable dot plot axes--FSC vs PM3 or FSC vs PM2. · Set the Refresh Rate to the number of events you want to display.
Running the guava CellToxicity Assay 14 - 5

· Set the Flow Rate to Low (0.24 µL/s) or Medium (0.59 µL/s). The recommended flow rate is Medium.
· Use the FSC Gain settings to reduce or amplify the FSC signal so that the effector cells are positioned between 500 and 10e3, and the target cells are at 2000 or less.
NOTE: If you wish to display the data in a FSC linear scale, click to remove the check
mark from the Log check box. This is the only chance you will have to select the FSC scale. · To adjust the FSC threshold, click and drag the threshold marker up or down the FSC axis of the FSC vs Green (PM3) [or FSC vs Red (PM2)] dot plot until the desired amount of debris is eliminated below the threshold.
NOTE: When setting the threshold, leave enough debris to ensure that you are not
excluding any small effector or dead target cells. · Adjust the voltages (using the PM3 and PM2 sliders or the arrow keys on the
keyboard) so that the unmarked, double-negative population is positioned in the lower-left corner of the Green (PM3) vs Red (PM2) plot. These cells should be evenly distributed between 10e0 and 10e1 on both scales. The marked, live (PM2negative) and dead (PM2-positive) target cells should not be saturated (that is, they should be below 4000 on the PM3 and PM2 scales). Adjust the PMTs by starting from a lower voltage setting and gradually increasing the voltage. · On the Gating Dot Plot with the parameters set to FSC vs Green (PM3), adjust the gate to include target cells only. Be sure to include the dead target cells, which often have a lower FSC signal than the live target cells. The gate is used as a counting gate. Events that are included in the gate are counted toward the number of Events to Acquire. For example, if the Events to Acquire is set to 1000, acquisition is complete when 1000 events have passed through the gate. Refer to "Dot Plot Gate" on page 14-10.
NOTE: If you turn off the counting gate, you may need to increase the number of
Events to Acquire to ensure acquiring a sufficient number of target cells. EMD Millipore recommends acquiring at least 1000 target cells. At a 1:1 effector-to-target ratio, you would need to acquire 2000 total events; whereas, at a 10:1 effector-totarget ratio, you would need to acquire 10,000 total events. · Adjust the quadrants to separate the four populations--live effectors (lower left), dead effectors (upper left), live targets (lower right), dead targets (upper right). Refer to "Quadrant Markers" on page 14-11.
14 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen. If necessary, you can repeat the adjust settings step to ensure that other samples are on scale and appropriately positioned by clicking Settings, then Adjust or Retrieve Settings, then indicating the location of the sample(s).
14 - 6 guava easyCyte HT System User's Guide

15 Select Show All Events to the left of the Analysis Dot Plot, then click Resume. The system acquires the first sample and displays the results. The remaining samples are automatically acquired. The tube/well currently being acquired is highlighted in red.
sample results
ACQUISITION NOTES
· If the sample is too dilute or too concentrated, a message appears indicating that the counting accuracy may be compromised. Refer to the Guava EasyCyte CellToxicity Kit package insert for the recommended cell concentration and proper dilution instructions.
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· At high effector to target ratios (25:1 or greater, depending on the total cell concentration), with a counting gate enabled, acquisition will be very slow because of the large number of effector cells. Although acquisition may time-out before 1000 target events are acquired, a robust analysis can still be performed.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 4 minutes.
16 If you need to adjust the markers prior to acquiring the remaining samples, click Pause during the acquisition of the first sample. The system will pause when the acquisition is complete. Once the system is paused, adjust the markers, then click Resume. Refer to "Quadrant Markers" on page 14-11 for information.
The system automatically performs a Quick Clean at the end of the assay.
Running the guava CellToxicity Assay 14 - 7

guava CellToxicity Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 format or a spreadsheet file. You can save changes made to the sample ID, FSC threshold, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. This version of the CellToxicity Software Module within guavaSoft Software, version 2.7 allows you to open and perform off-line analysis of files acquired using the CellToxicity Software Module version within CytoSoft 5.3. 1 Click CellToxicity from the main menu. 2 Click Go to Analysis from the Acquisition screen.
14 - 8 guava easyCyte HT System User's Guide

Dot Plot Gate
During acquisition, the dot plot gate is used as a counting gate. Events that are included in the gate are counted toward the number of Events to Acquire. During analysis, you may disable the gate or adjust it. However, once you adjust the gate, it is no longer considered a counting gate. In other words the number of events in the gate will not match the number of events acquired.
4 Select the plot parameters (FSC vs PM3) by clicking the appropriate button under Dot Plot Axis to the left of the plot. Click Enable Gating to turn on the gate.
NOTE: EMD Millipore recommends not using parameters FSC vs PM2 for setting the
gate on target cells. It is too difficult to exclude effector cells from the live and dead target cells. However, you may set the gate to include effector and target cells, and therefore generate statistics on all four populations.
5 Set the gate on the target cell population. Be sure to include the dead target cells, which have lower FSC and PM3 signal intensities than the live target cells. To set a gate, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-right handle. Events that fall within the center rectangle and appear in red are included in the gate. You may also set the gate by entering the coordinates in the Marker Position fields and clicking Set.
Select plot parameters.

Enter coordinates to set gate.

Click and drag handles to manually set gate. A pop-up label displays handle's current x and y coordinates.

Gate set on live and dead target cells
Examples of good and bad gates:

Gate too large

Gate optimal

14 - 10 guava easyCyte HT System User's Guide

Gate too small

Quadrant Markers
Adjust the quadrant markers on the Green (PM3) vs Red (PM2) dot plot to generate statistics on the selected populations. The Analysis Results are automatically updated each time you move the markers.
6 To set the markers, position the cursor over the handle at the intersection, then click and drag to the desired location. Select Show All Events to see all the data. This option affects only what is displayed in the Analysis Dot Plot. It does not affect the statistics. You may also set the markers by entering the coordinates in the Marker Position fields and clicking Set.
7 If necessary, you can adjust the angle of the markers ±44° from their original location. Click and drag the handle (solid square) towards the end of the marker and tilt the marker to the desired angle. You may also angle the markers by entering the degrees in the Marker Position Angle fields and clicking Set.

Enter coordinates and angle to set markers.
Click to see all data.

Click and drag intersection to set markers. A label displays markers' x and y coordinates and angles.
Click and drag handle to set marker angle. A label displays markers' x and y coordinates and angles.

Quadrant markers separating dead effectors (UL), dead targets (UR), live effectors (LL), and live targets (LR)
8 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
9 You can apply markers settings from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Then, click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
10 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog

guava CellToxicity Analysis 14 - 11

box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name.
NOTE: You system administrator may have configured guavaSoft Software to
disable overwriting files. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
11 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.
CellToxicity Results
The results appear immediately after the acquisition of the sample is complete. The percent of target cells killed and statistics for each quadrant are displayed. Results include the count, cells/mL, % Total (all data in the dot plot) or % Gated (if a gate was enabled), and the mean fluorescence intensities for PM3 and PM2. Additionally, statistics for all target cells are displayed.
Quadrant Marker Statistics
Statistics include the percentage of target cells killed.
Results for each quadrant are displayed as a count, cells/mL, and percentage of the total or gated data in the dot plot. Additionally, the mean fluorescence intensities for PM3 and PM2 are displayed.

CellToxicity quadrant marker statistics.

If a gate was set, the number of cells within the gate, as well as the percentage of cells inside and outside the gate are displayed.

The summary of each quadrant is outlined in the table below:

Quadrant

Staining

Population

lower left lower right

Green (PM3) negative, Red (PM2) negative
Green (PM3) positive, Red (PM2) negative

live effector cells live target cells

upper right Green (PM3) positive, Red (PM2) positive

dead target cells

upper left Green (PM3) negative, Red (PM2) positive

dead effector cells

Color
teal blue pink purple

14 - 12 guava easyCyte HT System User's Guide

Exporting CellToxicity Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.
Exporting CellToxicity Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application. 1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0.
You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print. 1 Select any sample from the Analyze Sample List and click Print.
The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

guava CellToxicity Analysis 14 - 13

CellToxicity Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.
Sample Information
Original Sample Data · Displays the sample #. This number defaults to 1 and advances
at the completion of sample acquisition. · Displays the Sample ID for the individual sample. · Displays the number of events to acquire. The default is 1000. · The progress bar provides an estimate of the target event count
during acquisition. Cell Count Displays the number of cells (total count) detected by the FSC detector, as well as the concentration (cells/µL). Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.
14 - 14 guava easyCyte HT System User's Guide

Unit Control

Detection Displays laser status and the PM3 and PM2 voltage settings and the FSC gain. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the offset and threshold settings for each parameter.
NOTE: You can edit the Threshold units during the adjust
settings step by typing a value in the field. Do not change the voltages from this panel. Use the sliders to adjust the PM3 and PM2 voltages. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava CellToxicity Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save CellToxicity spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save CellToxicity FCS file to another directory or give it a new name.

CellToxicity Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

guava CellToxicity Assay Troubleshooting 14 - 15

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Particle Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

properly loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in PM3 vs PM2 dot plot.

1. Laser not warmed up.
2. Threshold set too low or debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in FSC vs FSC vs PM3 gate excludes PM3 dot plot but not in PM3 events. vs PM2 dot plot.

Ensure FSC vs PM3 gate is set to include population of interest.

14 - 16 guava easyCyte HT System User's Guide

Problem
Poor resolution between target and effector cell populations.
Poor resolution between dead and live target cell populations.
Events appear off scale in dot plots.

Possible Cause

Solutions

1. PM3 voltage too low to

1. Adjust settings to increase

detect PM3 signal.

PM3 signal. Adjust

compensation settings.

2. Incomplete staining with 2. Refer to package insert for

Guava CFSE reagent.

proper staining

instructions.

3. Debris included in analysis. 3. Adjust FSC threshold or

set gate to remove debris.

4. Guava CFSE reagent

4. Refer to package insert for

expired or not stored

proper storage instructions.

properly.

Do not use expired reagent

or reagent exposed to light.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris.

6. Some effector cells appear 6. Use quadrant markers to

to be picking up Guava

separate CFSE-positive

CFSE dye and can't be

effector cells from dead

separated from target cells target cells.

using a gate.

1. High viability sample.

1. Resolution may be difficult

if few dead cells in sample.

2. Incomplete staining with 2. Check 7-AAD expiration

7-AAD.

date.

3. Too much Guava CFSE 3. Repeat experiment,

reagent used.

painting target cells with a

lower reagent

concentration.

4. PM3 signal too high

4. Adjust settings to reduce

causing Guava CFSE

PM3 voltage. Adjust

reagent to bleed into PM2. compensation settings.

5. PM2 voltage too low to

5. Adjust settings to increase

optimally detect 7-AAD

PM2 voltage. Adjust

signal.

compensation settings.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris.

PM3 and /or PM2 voltages set Adjust settings to increase or

incorrectly, or samples

decrease PM3 and/or PM2

staining brightly.

voltages so positive

populations appear on scale.

Repeat Adjust Settings with

negative sample. Adjust

compensation settings.

guava CellToxicity Assay Troubleshooting 14 - 17

Problem
All samples contain target cells that are 100% killed.

Possible Cause
FSC vs PM2 dot plot axis selected with gate enabled.

Solutions
Select FSC vs PM3 dot plot and adjust gate if necessary to include all target cells.

14 - 18 guava easyCyte HT System User's Guide

CHAPTER 15 guava CellGrowth Assay
Introduction
One of the functions of the immune system is to respond to mitogenic stimuli. When this occurs, resting lymphocytes, which are exposed to a foreign antigen or chemical stimulus, are triggered to proliferate and differentiate into an active state with distinct regulatory or effector functions. Such cellular proliferation has traditionally been measured in vitro by incorporating 3H-thymidine. This approach not only generates long-lived radioactive waste, but because of radiation-induced cell cycle arrest and apoptosis, it may also underestimate the number of cells capable of proliferating. Alternative colorimetric and flow cytometric assays have been developed, which circumvent the need for radionuclides. The guava CellGrowth Assay uses two dyes--a cell permeant painting dye and a cell impermeant DNA binding dye. The cell painting dye diffuses freely into cells where intracellular esterases cleave off the acetate groups, converting it to a fluorescent, membrane impermeant dye. The painting dye is equally distributed among daughter cells because of covalent crosslinking to proteins through its succinimidyl groups. The stain is long lived allowing resolution of up to five cycles of cell division. The DNA binding dye, propidium iodide (PI), is then added at the end of the culture time to distinguish live from dead cells. To run the assay, follow the instructions in the Guava EasyCyte CellGrowth Kit package insert to stain the cells. Acquire samples on the guava easyCyte HT System using guavaSoft Software. Data are displayed in two dot plots--a gating dot plot and an analysis dot plot. The gating dot plot, which shows forward scatter (FSC) versus Green (PM3) [or Red (PM2)] fluorescence, allows you to set a counting gate to acquire a specific number of resting and proliferating cells. The gate can also be used to eliminate unwanted events such as debris from the analysis. The analysis dot plot, which displays Green (PM3) versus Red (PM2), allows you to set quadrant markers for immediate onscreen results. Statistics for the two-color dot plot include the percent of live proliferating cells, and the individual quadrant statistics, which include the count, cell concentration, %Gated (or %Total), and mean fluorescence intensity (MFI) for live and dead resting cells, live proliferating cells, and dead stimulated cells. A Green (PM3) histogram is also available, allowing you to set two or three markers to analyze resting and up to two populations of proliferating cells.
The CellGrowth data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after the sample is acquired or recalled later for
Introduction 15 - 1

analysis. In addition to the saved data file, all results and the acquisition information are exported to a spreadsheet file.
Running the guava CellGrowth Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "CellGrowth Software Module Control Panels" on page 15-16. 1 Use WorkEdit Software to create a worklist file for the run. See "Creating a Worklist"
on page 1-29 for information. 2 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop.
Be sure to close WorkEdit Software before starting guavaSoft Software. 3 Click CellGrowth from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
4 Prepare samples for analysis in a microplate or tubes. Refer to the Guava EasyCyte CellGrowth Kit package insert for information.
5 Click Start Worklist. The sample tray ejects. A dialog box appears prompting you to load samples.
15 - 2 guava easyCyte HT System User's Guide

WARNING: Keep the area in front of the tray clear as the tray ejects.

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

Running the guava CellGrowth Assay 15 - 3

8 A dialog box appears prompting you to select the worklist file. Select the worklist file for the current run and click Open.
Select a worklist file and click Open.
9 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.
Enter a file name for the data set and click Save.
10 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings. · To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
15 - 4 guava easyCyte HT System User's Guide

11 A dialog box appears prompting you to select the sample for adjusting settings. EMD Millipore recommends performing the adjust settings step three times with the following samples: · first using resting (unstimulated), unpainted cells, PI-stained · to set cells within the first decade on the PM3 and PM2 axes · next using resting (unstimulated), painted, PI-stained cells · to ensure that the green fluorescence is on scale--below 4000 and not saturating · and finally using proliferating (stimulated), painted, PI-stained cells · to ensure that the quadrant markers are set properly to distinguish live resting, live proliferating, dead resting, and dead stimulated Click to select the well/tube for the first adjust settings sample (unstimulated/ unpainted), then click OK.
The Adjust Settings screen appears, allowing you to adjust the threshold and optimize the display of the data.
Change plot parameters.
Running the guava CellGrowth Assay 15 - 5

12 Open the Sample Information control panel and check the Cells/µL field. For accurate counting, the concentration should be between 10 and 500 cells/µL.
NOTE: If the concentration is greater than 500, click Abort, then click Eject Tray.
Dilute the sample with Guava® CellGrowth PI Reagent diluted 1:40 with serumcontaining medium to lower the concentration to <500 cells/µL. Click Load Tray, then Settings, then Adjust or Retrieve Settings. 13 To fine tune the settings, you can make the following adjustments once events start to appear on the screen: · Select the applicable dot plot axes--FSC vs PM3 or FSC vs PM2. · Set the Refresh Rate to the number of events you want to display. · Set the Flow Rate to Low (0.24 µL/s) or Medium (0.59 µL/s). The recommended flow rate is Medium. · Use the FSC Gain settings to reduce or amplify the FSC signal so that the unstimulated, unpainted cells are positioned at about 1024 on the FSC axis.
Adjust FSC threshold.
unstimulated, unpainted cells
NOTE: If you wish to display the data in a FSC log scale, click the Log check box.
This is the only chance you will have to select the FSC scale. · To adjust the FSC threshold, click and drag the threshold marker up the FSC axis of
the FSC vs Green (PM3) [or FSC vs Red (PM2)] dot plot until it is approximately 1/3 the distance from the y axis to the left side of the resting cell population.
NOTE: When setting the threshold, leave enough debris to ensure that you are not
excluding any cells. · Adjust the voltages (using the PM3 and PM2 sliders or the arrow keys on the
keyboard) so that the unstimulated, unpainted population is positioned in the lower-left corner of the Green (PM3) vs Red (PM2) plot. These cells should be evenly distributed between 10e0 and 10e1 on both scales. Adjust the PMTs by starting from a lower voltage setting and gradually increasing the voltage.
15 - 6 guava easyCyte HT System User's Guide

Click Next Step to advance to the data acquisition screen. Click Settings, select the well/tube for the second adjust settings sample (unstimulated/painted), then click OK.
live, resting cells
unstimulated, painted cells
· On the Gating Dot Plot with the parameters set to FSC vs Green (PM3), adjust the gate to include the unstimulated, painted cells. The gate is used as a counting gate. Events that are included in the gate are counted toward the number of Events to Acquire. For example, if the Events to Acquire is set to 2000, acquisition is complete when 2000 events have passed through the gate. Ensure the live, resting cells are on scale in the PM3 parameter. If not, adjust the PM3 voltage.
NOTE: It may help to view FSC vs PM2 when setting the left side of the gate. Red
(PM2) displays the PI-stained debris and small dead cells, which you may want to exclude.
NOTE: If you turn off the counting gate, you may need to increase the number of
Events to Acquire to ensure acquiring a sufficient number of resting and proliferating cells. Refer to "Dot Plot Gate" on page 15-10 for more information on setting the gate. Click Next Step to advance to the data acquisition screen. Click Settings, select the well/tube for the third adjust settings sample (stimulated/painted), then click OK.
stimulated, painted cells
· Adjust the right side of the gate, if necessary to include all proliferating cells, which display a higher FSC value than the resting cells. Do not include saturated cells in the gate.
· Adjust the quadrants to separate the four populations--live proliferating (lower left), dead stimulated (upper left), live resting (lower right), dead resting (upper right). Refer to "Quadrant Markers" on page 15-11.
Running the guava CellGrowth Assay 15 - 7

14 When you are finished adjusting settings, click Next Step to advance to the data acquisition screen.
15 Click Resume. The system acquires the first sample and displays the results. The remaining samples are automatically acquired. The tube/well currently being acquired is highlighted in red.
sample results
ACQUISITION NOTES
· If the sample is too dilute or too concentrated, a message appears indicating that the counting accuracy may be compromised. Refer to the Guava EasyCyte CellGrowth Kit package insert for the recommended cell concentration and proper dilution instructions.
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
· The progress bar provides an estimate of the target event count during the acquisition period, which times out after 4 minutes.
16 If you need to adjust the markers prior to acquiring the remaining samples, click Pause during the acquisition of the first sample. The system will pause when the acquisition is complete. Once the system is paused, adjust the markers, then click Resume. Refer to "Quadrant Markers" on page 15-11 for information.
The system automatically performs a Quick Clean at the end of the assay.
15 - 8 guava easyCyte HT System User's Guide

guava CellGrowth Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. You can also export data to FCS 2.0 format or a spreadsheet file. You can save changes made to the sample ID, FSC threshold, gate, or markers within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view or print data for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (gates and markers) from the analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. 1 Click CellGrowth from the main menu. 2 Click Go to Analysis from the Acquisition screen.
guava CellGrowth Analysis 15 - 9

3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. The marker settings appear as they were when the sample was acquired. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel.
Analysis Sample List control panel
Dot Plot Gate
During acquisition, the dot plot gate is used as a counting gate. Events that are included in the gate are counted toward the number of Events to Acquire. During analysis, you may disable the gate or adjust it. However, once you adjust the gate, it is no longer considered a counting gate. In other words the number of events in the gate will not match the number of events acquired. 4 Select the plot parameters (FSC vs PM3) by clicking the appropriate button under Dot
Plot Axis to the left of the plot. Click Enable Gating to turn on the gate.
NOTE: You may want to view FSC vs PM2 when setting the gate to help you
eliminate debris and dead cells. You may use the gate to include only live cells and use the histogram to determine the proliferating statistics.
15 - 10 guava easyCyte HT System User's Guide

5 Set the gate on the unstimulated, painted sample. Then check the gate on the painted, stimulated sample to ensure it holds for that sample as well. Set the left side of the gate to exclude debris. Set the right side of the gate to include the proliferating cells, which have a higher FSC. Be sure to exclude the cells saturated to the far right, which may be cell aggregates. To set a gate, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-right handle. Events that fall within the center rectangle and appear in red are included in the gate. You may also set the gate by entering the coordinates in the Marker Position fields and clicking Set.

Select plot parameters.
Enter coordinates to set gate.

Click and drag handles to manually set gate. A pop-up label displays handle's current x and y coordinates.

Set gate on unstimulated, painted cells.
Check the gate on the stimulated, painted cells to ensure all proliferating cells are included in the gate.
Exclude saturated cells appearing in the last channel. painted, resting cells painted, proliferating cells
Check gate on stimulated, painted cells.
Quadrant Markers
Adjust the quadrant markers on the Green (PM3) vs Red (PM2) dot plot to generate statistics on the selected populations. The Analysis Results are automatically updated each time you move the markers. 6 To set the markers, position the cursor over the handle at the intersection, then click
and drag to the desired location. Select Show All Events if you want to see all the data. This option affects only what is displayed in the Analysis Dot Plot. It does not
guava CellGrowth Analysis 15 - 11

affect the statistics. You may also set the markers by entering the coordinates in the Marker Position fields and clicking Set. If necessary, you can adjust the angle of the markers ±44° from their original location. Click and drag the handle (solid square) towards the end of the marker and tilt the marker to the desired angle. You may also angle the markers by entering the degrees in the Marker Position Angle fields and clicking Set.

Enter coordinates and angle to set markers.
Click to see all data.

Quadrant markers separating dead stimulated (UL), dead resting (UR), live proliferating (LL), and live resting (LR).
Histogram Marker
You may use the histogram markers instead of the quadrant markers to generate statistics. The histogram markers allow you to get statistics on any population within the Green (PM3) parameter. You can set two or three markers to identify and generate statistics on the resting cell population (M1) and up to two proliferating populations (M2 and M3). If you are interested only in the live populations, set the gate to include live cells only [Red (PM2) negative]. The Analysis Results are automatically updated each time you move the markers.
7 To set histogram markers 1 and 2, click and drag either side of the marker to size it. Click the horizontal line to drag the entire marker. You cannot overlap markers 1 and 2. Events that fall within marker 1 appear in pink, events that fall within marker 2 appear in light green. You may also set the markers by entering the coordinates in the Marker Position fields and clicking Set.

Enter coordinates to set gate. Select number of markers.
Adjust scale.

Click and drag either end to manually set marker. A label displays marker's minimum and maximum x-axis positions. Click center of marker to drag entire marker.

Green (PM3) histogram with marker 1 set on resting cells and marker 2 set on proliferating cells.

15 - 12 guava easyCyte HT System User's Guide

8 To set a third marker, click the Number of Markers up arrow. Adjust the marker appropriately. You can extend marker 3 to any position.
Select number of markers.
Green (PM3) histogram with marker 3 activated.
9 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the list, or use the keyboard arrow keys to select samples.
10 You can apply markers settings from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Then, click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
11 When you have finished analyzing the samples in the current file, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name.
NOTE: You system administrator may have configured guavaSoft Software to
disable overwriting files. Results are automatically exported to a CSV file that is given the same name as the FCS file.
NOTE: Exporting to the CSV file may take several minutes, especially with a large
number of samples.
12 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.
CellGrowth Results
The results appear immediately after the acquisition of the sample is complete. The percent of proliferating cells and statistics for each quadrant are displayed. Results include the count, cells/mL, % Total (all data in the dot plot) or % Gated (if a gate was enabled), and the mean FSC intensity and mean fluorescence intensities for PM3 and PM2. The total number
guava CellGrowth Analysis 15 - 13

of events acquired, number of events in the gate, and the percentage of events inside and outside the gate are also displayed.
Quadrant Marker Statistics
Statistics include the percentage of live, proliferating cells. Results for each quadrant are displayed as a count, cells/mL, and percentage of the total or gated data in the dot plot. Additionally, the mean FSC intensity and mean fluorescence (PM3 and PM2) intensities are displayed.

CellGrowth quadrant marker statistics.

If a gate was set, the number of cells within the gate, as well as the percentage of cells inside and outside the gate are displayed.

The summary of each quadrant is outlined in the table below:

Quadrant

Staining

Population

lower left lower right upper right upper left

Green (PM3) negative, Red (PM2) negative
Green (PM3) positive, Red (PM2) negative
Green (PM3) positive, Red (PM2) positive
Green (PM3) negative, Red (PM2) positive

live, proliferating cells live, resting cells dead, resting cells dead, stimulated cells

Color
green teal pink purple

Histogram Marker Statistics
M1 provides statistics on the resting cell population. M2 and M3 provide statistics on the proliferating populations. Results include the statistics within each marker--count, cells/ mL, percentage of gated (or total), PM3 mean fluorescence intensity, and FSC intensity. If a gate was set, the number of cells within the gate and the percentage of cells inside and outside the gate are also included.

Results for each marker are displayed as a count, cells/mL, and percentage of the total or gated data in the dot plot. Additionally, the mean FSC intensity and PM3 fluorescence intensity are displayed.

If a gate was set, the number of cells within the gate, as well as the percentage of cells inside and outside the gate are displayed.

15 - 14 guava easyCyte HT System User's Guide

Exporting CellGrowth Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet.
2 Select the folder where you want to save the file, and enter a file name. Click Save.
Exporting CellGrowth Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application. 1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0.
You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files.
2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Printing Results
You can print results from the Analysis screen only. If you are currently at the Acquisition screen, click Pause, then Go to Analysis, then Print. 1 Select any sample from the Analysis Sample List and click Print.
The Print dialog box appears. If you wish to preview the results before you print, click Print Preview before clicking Print.
2 Click OK in the Print dialog box, or click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

guava CellGrowth Analysis 15 - 15

CellGrowth Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.
Sample Information
Original Sample Data · Displays the sample #. This number defaults to 1 and advances
at the completion of sample acquisition. · Displays the Sample ID for the individual sample. · Displays the number of events to acquire. The default is 2000. · The progress bar provides an estimate of the target event count
during acquisition. Cell Count Displays the number of cells (total count) detected by the FSC detector, as well as the concentration (cells/µL) and concentration of cells within the gate. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.
15 - 16 guava easyCyte HT System User's Guide

Unit Control

Detection Displays laser status, the PM3 and PM2 voltage settings, and the FSC gain. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the FSC offset and threshold settings.
NOTE: You can edit the Threshold units during the adjust
settings step by typing a value in the field. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava CellGrowth Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save CellGrowth spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save CellGrowth FCS file to another directory or give it a new name.

CellGrowth Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

guava CellGrowth Assay Troubleshooting 15 - 17

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Particle Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

properly loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in PM3 vs PM2 dot plot or PM3 histogram.

1. Laser not warmed up.
2. Threshold set too low or debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in FSC vs FSC vs PM3 gate excludes PM3 dot plot but not in PM3 events. vs PM2 dot plot.

Ensure FSC vs PM3 gate is set to include population of interest.

Events appear in FSC vs FSC vs PM2 gate excludes PM2 dot plot but not in PM3 events. histogram.

Ensure FSC vs PM2 gate is set to include population of interest.

15 - 18 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Poor resolution between 1. PM3 voltage too low to

1. Adjust settings to increase

resting and proliferating cell detect PM3 signal.

PM3 signal.

populations.

2. Incomplete staining with 2. Refer to package insert for

guava painting reagent.

proper staining

instructions.

3. Debris included in analysis. 3. Adjust FSC threshold or

set gate to remove debris.

4. guava painting reagent

4. Refer to package insert for

expired or not stored

proper storage instructions.

properly.

Do not use expired reagent

or reagent exposed to light.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris.

Poor resolution between dead and live cell populations.

1. High viability sample.

1. Resolution may be difficult

if few dead cells in sample.

2. Incomplete staining with PI. 2. Check PI expiration date.

3. Too much guava painting 3. Repeat experiment,

reagent used.

painting cells with a lower

reagent concentration.

4. PM3 signal too high

4. Adjust settings to reduce

causing guava painting

PM3 voltage.

reagent to bleed into PM2.

5. PM2 voltage too low to

5. Adjust settings to increase

optimally detect PI signal. PM2 voltage.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris.

Events appear off scale in dot plots.

PM3 and/or PM2 voltages and/or FSC gain set incorrectly, or samples staining brightly.

Adjust settings to increase or decrease PM3 and/or PM2 voltages and/or FSC gain so positive populations appear on scale. Repeat Adjust Settings.

guava CellGrowth Assay Troubleshooting 15 - 19

15 - 20 guava easyCyte HT System User's Guide

CHAPTER 16 guava RapidQuant Assay
Introduction
The guava RapidQuantTM Assay provides quantification of human and mouse IgG antibodies, typically found in hybridoma supernatants, using protein-bound beads. The Guava RapidQuantTM Human IgG and Guava RapidQuantTM Mouse IgG Kits contain IgG Capture Beads (Protein G-bound beads), which bind human or mouse antibodies (analyte) through the Fc region. The bound analyte is detected and quantified using the FITC-labeled goat anti-human (or goat anti-mouse) IgG antibody provided in the kit. A human (or mouse) antibody standard (whole IgG), also provided with the kit, is used at different concentrations to obtain a standard curve. The human IgG kit quantifies IgG1, IgG2, IgG3, and IgG4 antibodies in the range of 0.520 µg/mL using the single standard provided. The mouse IgG kit quantifies IgG1, IgG2a, and IgG2b antibodies in the range of 2.5-40 µg/mL using the single standard provided. It also detects IgG3, but at a lower efficiency than the other subtypes. Both kits work only with intact antibodies that include an Fc region. If the antibody to be tested is an F(ab')2, Fab, sFv, or other variant without an Fc region, these kits should not be used.
To run the assay, stain samples using the appropriate kit. Define samples as standard, control, unknown, or blank. Acquire the samples on the guava easyCyte HT System using guavaSoft Software. The data are displayed in two plots--a Forward Scatter (FSCHLog) vs Green Fluorescence (GRN-HLog) dot plot and a Green Fluorescence (GRNHLog) histogram. The software automatically plots a standard curve and calculates a linear regression equation, then determines the unknown concentrations based on the standard curve. If necessary, you may set a gate to eliminate any undesirable populations, or eliminate samples from the analysis, then recalculate.
Histogram and dot plot statistics include the bead count, % total, % gated, geometric mean, mean, median, %CV, and particles/mL.
The RapidQuant data for all samples within a data set are saved to an FCS 3.0 file. The data can be analyzed immediately after all samples are acquired using guavaSoft Software, or later using guavaSoft Software or an FCS 2.0compatible program, if you selected to save FCS 2.0 files. In addition to the saved data file, user-selectable statistics, instrument settings, and the acquisition summary information are exported to a spreadsheet file.
Introduction 16 - 1

Running the guava RapidQuant Assay
For details on software screen buttons, see "Acquisition Buttons" on page 1-13. For details on the information displayed within the control panels, see "guava RapidQuant Software Module Control Panels" on page 16-20. 1 Open guavaSoft Software by double-clicking the guavaSoft icon on the desktop. 2 Click RapidQuant from the main menu.
If the tray is ejected, click OK in the dialog box to load the tray. Be sure to keep the area clear as the tray loads. Allow the easyCyte HT System to warm up for 10 minutes before acquiring samples.
3 Prepare samples for analysis in a microplate or 0.5-mL tubes. Refer to the Guava RapidQuant Human IgG Kit or Guava RapidQuant Mouse IgG Kit package insert for information.
4 Click Setup to the right of the plate map. Setup allows you to enter details about the samples and how the plate is set up.
NOTE: If you wish to apply a previously saved plate template to this run, click Import
Plate to the right of the plate map, Select the file name for the data set, then click Open. You can also wait until after acquisition is complete to define the plate. In either case, proceed to step 7 on page 16-4. · Select GRN-HLog for the computation parameter. · Enter µg/mL for the unit of concentration. · Ensure that all the standard concentrations used in your plate are present in the standard concentration list. The default list includes 40, 20, 10, 5, 2.5, 1.25, 0.625 and 0.313. If necessary, you can add a standard concentration (a maximum of 20)
16 - 2 guava easyCyte HT System User's Guide

to the list by scrolling to the bottom of the list, placing the cursor in the empty row, and entering a new value. · Ensure that the dilution factors used for your unknowns and controls are included in the dilution factor list. The default list includes 1, 2, 3, 4, 5, 8, and 10. If necessary, you can add a dilution factor to the list by scrolling down to the bottom of the list, placing the cursor in the empty row, and entering a new value.
NOTE: The dilution factor applies only to unknowns and controls. Prepare standards
according to the instructions in the package insert. Do not dilute.
5 Define each well in the plate map. Each well must be designated as Standard, Unknown, Control, Blank, or Excluded. Any wells not defined are designated Empty by default. Right-click the well, then select the appropriate sample type. You may also click and drag to select a group of wells.
NOTE: Assigning well types can be done in the acquisition or analysis prior to
running the plate, or after the plate has been run. · For unknowns and controls, select the appropriate dilution factor. Right-click
individual wells and choose the sample type, then the dilution factor from the popup menu. Select 1 for undiluted. Wells highlighted together will be treated as replicates. · For standards, select the appropriate concentration. Rightclick individual wells and choose the appropriate concentration from the pop-up menu. Wells highlighted together will be treated as replicates
NOTE: To prevent linking of wells as replicates, select the
desired wells, hold down the shift key, and then right-click to assign wells. This will assign all of the selected wells as independent samples (ie, not replicates) and thus assigns them different sample numbers. · Standard A standard will be used to calculate the standard curve. When selecting standards, you will need to select the appropriate concentration from the pop-up menu. A well designated as a standard appears green.
Running the guava RapidQuant Assay 16 - 3

· Unknown An unknown is a sample whose concentration is determined using the standard curve. Unknowns have dilution factors associated with them. A well designated as an unknown appears red.
· Controls Controls are negative controls consisting of beads with FITC goat antihuman [or mouse] IgG antibody only. A well designated as a control appears yellow.
NOTE: If you wish to run positive controls, you must assign those wells as unknowns.
· Blank A blank is a sample containing beads only (with no FITC goat anti-human [or mouse] IgG antibody). A well designated as a blank appears light green.
· Empty A blank is a well that has no sample, has not yet been defined, or was not acquired. A well designated as a blank appears white.
· Excluded Samples which were acquired but you do not wish to consider in the analysis. A well designated as excluded appears gray.
6 If you wish to use this plate again you may save it as a template. Click Export Plate to the right of the plate map. Enter a file name for the plate map template, then click Save.
7 Click Worklist Editor. The Worklist Editor application opens allowing you to define the worklist parameters and select wells for acquisition.
NOTE: If you already created a worklist, you can click Start Worklist. A dialog box
prompts you to select a worklist or run the loaded worklist. The tray ejects and dialog
16 - 4 guava easyCyte HT System User's Guide

boxes appear prompting you to load samples, select the worklist file, save the data set, and select the sample to adjust instrument settings.
8 Define the worklist parameters for the run and click Start this Worklist. See "Creating a Worklist" on page 1-29 for more information on setting up a worklist. See "Worklist Editor Software" on page 1-27 for information on the buttons below the plate map. When you start a worklist, the sample tray ejects. A dialog box appears prompting you to load samples.
WARNING: Keep the area in front of the tray clear as the tray ejects.
9 Place the microplate, any sample tubes (0.5-mL microcentrifuge tubes), and the cleaning tubes in the tray. Make sure well A1 of the plate is in the top-right corner. Load the following 1.5-mL microcentrifuge tubes in these positions: · Load tubes containing water in positions w2, w4, and w5 (for Quick Clean and washing the capillary and mixer).
IMPORTANT: Always load a tube filled with water in position w4 (for Quick Clean).
· Load empty tubes in positions w3 and w6 (for spinning/drying the mixer).
Running the guava RapidQuant Assay 16 - 5

· Load a tube containing 100 µL of bleach in position w1 (for performing a backflush).

WW E BW E

Tubes containing: W - water E - empty B - bleach

Place plate so that well A1 is at top-right corner.

10 Click OK in the Load Samples dialog box after you are finished loading samples and cleaning tubes to load the sample tray.
WARNING: Keep the area clear as the tray loads.
WARNING: Always use the Eject Tray button in guavaSoft Software to open the door.
Click Pause first, if necessary. Never open the door with your fingers.
11 Select the folder where you want to save the file, and enter a file name. Click Save. The file name you enter for the FCS file will also be used for the spreadsheet (.csv) file. If you wish, you may select an existing data file and either overwrite it or append it with the data from this session.
NOTE: Your system administrator may have configured guavaSoft Software to
disable overwriting and/or appending files.

Enter a file name for the data set and click Save.
12 Select an instrument settings option. · To adjust instrument settings, click Adjust Settings.
16 - 6 guava easyCyte HT System User's Guide

· To retrieve instrument settings, click Retrieve Settings. Select a settings file and click Open. The settings are automatically downloaded to the guava easyCyte HT System.
13 A dialog box appears prompting you to select the sample for adjusting settings. Click to select the well containing beads only (blank sample), then click OK.
The Adjust Settings screen appears, displaying a Forward Scatter (FSC-HLog) vs Green Fluorescence (GRN-HLog) dot plot and a Green Fluorescence (GRN-HLog) histogram. This screen allows you to adjust the threshold and optimize the display of the data. The system automatically sets the threshold to exclude background signals. 14 Check the Particles/µL value in the Sample Information control panel and ensure that it is less than or equal to 2500 particles/µL. If the sample has greater than 2500 particles/µL, you must prepare the sample again, ensuring you add the correct amount of bead suspension. 15 To adjust or fine tune the settings, you can make the following adjustments once events start to appear on the screen: · Set the Refresh Rate to the maximum number of events you want to display. · Set the Flow Rate to Very Low (0.12), Low (0.24 µL/s), Medium (0.59 µL/s) or High
(1.2 µL/s). The recommended flow rate is Medium.
NOTE: If you change the flow rate during the adjust settings step, EMD Millipore
recommends that you repeat the adjust settings step at the new flow rate to ensure that the markers and threshold are still set correctly. · Select the threshold parameter (FSC) from the drop-down menu in the Sample Information control panel. · The Capture Bead population has a low FSC signal. To see the entire bead population, click and drag the threshold marker (dotted red line) to
Running the guava RapidQuant Assay 16 - 7

the left. You can also enter a numerical value in the Threshold Value text box in the Sample Information control panel, then click Set.
NOTE: When setting the threshold, place it at least 2 to 3 mm to the left of the bead
population to ensure that you are not excluding beads. Any debris that gets acquired can be excluded during analysis with an optional dot plot gate. · If necessary, increase the FSC Gain setting so that the entire bead population is visible. Use the drop-down menu to change the FSC signal by a factor of 2. Use the FSC slider to change the FSC signal by steps of 1% between two coarse gain levels. If the slider is set to 100% (min), the gain is equal to the value appearing in the drop-down box. If the slider is set to 200% (max), the gain is 2 times the value appearing in the drop-down box. · If necessary, change the Green Fluorescence voltage by moving the GRN slider up or down so that the entire bead population is distributed in the first decade of the histogram.
NOTE: It is not necessary to move the SSC, YLW, RED, or NIR sliders. It is also not
necessary to make any adjustments to the Compensation.
16 Ensure the Enable Rectangular Region box above the dot plot is not checked. 17 When you are finished adjusting settings, click Next Step to advance to the data
acquisition screen. If you made changes to an existing settings file, when you click Next Step you will be prompted to save it as a new file or overwrite the existing file.
16 - 8 guava easyCyte HT System User's Guide

18 Click Resume. The system acquires the first sample and automatically displays the results. The tube/ well currently being acquired is highlighted in gray.
ACQUISITION NOTES
· You may click Pause at any time during the run, then click Backflush, Quick Clean, Eject Tray, or Go to Analysis. The system will complete the current step before pausing. Click Resume to continue.
· If you wish to adjust the instrument settings during the run, click Pause, Settings, then Adjust Settings. When the settings are set, click Next Step, then Resume.
NOTE: If you adjust the settings during a run, you must restart the acquisition of the
plate, as MFI values may be affected. · The progress bar provides an estimate of the target event count during the
acquisition period, which times out after 1.75 minutes (high flow rate), 3.5 minutes (medium flow rate), 7 minutes (low flow rate), or 10 minutes (very low flow rate). The system automatically performs a Quick Clean at the end of the assay.
Running the guava RapidQuant Assay 16 - 9

guava RapidQuant Analysis
Use the Analysis screen to analyze samples, print results, log comments, or view the event log from a data set that was saved previously. The Worklist Editor can be accessed from the Analysis screen as well. You can also export data to FCS 2.0 files or a spreadsheet file, as well as export the standard curve to a CSV file. You can save any changes made within Analysis by overwriting the existing file or saving a new file.
NOTE: If your system administrator has configured guavaSoft Software to disable
overwriting files, you must save any changes to a separate file with a new name. If you access the Analysis screen during data acquisition you can view the data plots for any samples already acquired. You may also log comments or view the event log. However, you cannot change analysis settings (plots, axes parameters, gates, etc) from the Analysis screen during acquisition. Any analysis settings you wish to change during acquisition should be done from the Acquisition screen. 1 Click RapidQuant from the main menu. 2 Click Go to Analysis from the Acquisition screen.
16 - 10 guava easyCyte HT System User's Guide

3 Click Open Data Set. Select an FCS file for analysis and click Open.
The data and results for the first sample in the data set appear. To see a list of all samples in the data set, click the title bar of the Analysis Sample List control panel. To select data for a particular sample, you can click on the sample in the Analysis Sample List, or click on a well in the plate map. If you want a picture of the plots, you can copy the screen to the clipboard by pressing Alt + Print Screen on the keyboard. You can then paste the screen into most third-party applications. The software automatically plots a standard curve and calculates a linear regression equation for the standards, then determines the unknown concentrations from the equation that best fits the average of the standards. If you did not define the well types prior to acquisition, all wells are defined as empty.
NOTE: To expand the data table, click Expand to the left of the table.
Click to expand the table.
Click to sort the table by plate row, column, or replicate.
Data for RapidQuant run of standards, unknowns, and controls.
4 If you did not define well types prior to acquisition, do so now. Refer to step 5 on page 16-3. When well definition is complete, click Recalculate to calculate a standard
guava RapidQuant Analysis 16 - 11

curve and corresponding equation. If you modify the plate setup from what was originally defined, a message appears below the data table indicating that you must recalculate. 5 Observe the dot plot (or histogram) and confirm that the bead population is homogeneous. Repeat this for all samples in the data set. If multiple populations appear for any sample, you need will need to set a gate. The green fluorescence will increase in proportion to the amount of IgG bound to the Capture Beads. The MFI for the bead population is displayed in the data table. If gating is necessary to exclude outliers, refer to "Setting a Gate" below. If you do not need to set a gate, proceed to step 9 on page 16-13.
Click if you need to set a gate.
Sample with IgG bound Capture Beads.
Setting a Gate
In rare instances, one or more samples may contain a heterogeneous population of beads. If this occurs, you may set a gate to avoid erroneous results. Ideally, at least 95% of the Capture Bead population should be included in the gate; however, this may not be possible. If necessary, you can exclude the sample from analysis and recalculate, using only the sample's replicate(s), or proceed with setting a gate, keeping in mind that the assay error may be higher in that sample. 6 Select the sample by clicking on the sample ID in the Analysis Sample List or the well
in the plate map. 7 Click Enable Rectangular Region above plot 1 to place a check mark in the box. 8 Set the gate to exclude the beads in question.
To set a rectangular gate, position the cursor over the upper-left handle. Click and drag the handle to a new location. Repeat with the lower-left handle. Events that fall
16 - 12 guava easyCyte HT System User's Guide

within the center rectangle appear in red and are included in the gate. The gate is immediately applied to the data appearing in plot 2 and the data table.
Click and drag handles to manually set marker. A pop-up label displays handle's current x and y coordinates.
Rectangular marker set on CD3+ lymphocytes.
9 Click Next under Sample List Navigation in the Sample Information control panel or Unit Control panel. You can also click on the next sample in the Analysis Sample List, use the keyboard arrow keys to select samples, or click directly on a well in the plate map.
10 You can apply gates, as well as changes to parameter names from one sample to another sample(s), whether you have made changes or the samples were acquired with different settings. Select the sample with the changes first, then select the samples to which you want to apply the settings from the Analysis Sample List. Click Apply Current Settings to Selected Samples. Hold down the Shift key while clicking and dragging to select groups of samples. Or, hold down the Ctrl key while clicking to select multiple samples.
NOTE: Apply Current Settings to Selected Samples applies to parameter names as
well, so make name changes last and apply only to the samples with the same custom name.
11 When you have finished analyzing the samples for this plate, you can save any analysis changes you made by exiting Analysis or clicking Open Data Set. A dialog box appears prompting you to save the changes. Click Yes and either overwrite the existing file or save the file with a new name. Results are automatically exported to a CSV file that is given the same name as the FCS file.
12 If you wish to view the event log, click View Event Log. Refer to "Event Log" on page 1-19 for information. You can also enter comments related to the assay and save these comments to the event log. Click Log Comment and type in the information. Then, click Save Comments to Log.
guava RapidQuant Analysis 16 - 13

Plot Menu
Some analysis features are available from the plot menu. To open the plot menu, click the plus sign (+) in the upper-right corner above the plot or right-click the plot. See "Statistics" on page 16-16 and "Selecting Statistics for the Spreadsheet File" on page 16-17 for information on those options.
Overlaying Plots
You can overlay the data of up to six samples in a dot plot and seven samples in a histogram plot. The data for each sample will be displayed in a different color, allowing you to see the different sample data overlaid within the same plot. 1 Select Overlay from the plot menu.
The Overlay Settings dialog box appears (histogram overlay dialog box shown).
Change order of overlays.
Click to display the overlays in the plot.
2 Click the Sample # column and select the sample from the drop-down list. You may select up to six samples for dot plots and seven samples for histograms.
3 To change the line or fill color, click the color in the Line and/or Fill Color column for a sample, then click the palette icon and select the desired color from the color palette. Click OK.
4 Click Show Overlay and then click OK. The selected sample data in the selected colors appears. The first sample's dot plot/ histogram is drawn. The other plots are layered over it, with the last plot appearing on top. To change the overlay order, click a sample in the list then click the up or down arrow to the right of the list to reorder the sample. To remove an overlaid plot, right-click on the overlay and select Remove. The overlay plots are gated from the same gate as the initial plot.
Copying a Plot to the Clipboard
You can copy a plot to the clipboard. 1 Select Copy Plot to Clipboard from the plot menu.
You can also copy the screen to the clipboard by pressing Alt + Print Screen on the keyboard. You can then paste the screen into most third-party applications.
16 - 14 guava easyCyte HT System User's Guide

Changing the Number of Dots to Display
You can change the number of dots displayed in the plot.
1 Select % Dots to Display from the plot menu, then select a percentage from the menu. If you choose Custom, you can enter the number of events you wish to display.
guava RapidQuant Results
Results for individual samples appear in the data table. You can click a particular sample in the Analysis Sample List or on an individual well to display the results for that sample in the data table. You can also place the cursor over a well to see a pop-up menu with the well, type, replicate, concentration (for standards and unknowns only), and dilution (for unknowns and controls only).
Standard Curve
1 Click Std Curve to view the standard curve and linear regression equation. You can uncheck the boxes for Show Avg. Standards, Show Rep. Standards, or Show Unknowns if you do not wish to view them on the graph. Any unknowns with MFI values that fall significantly above the range of the standard curve may not appear on the plot. Antibody concentration data for any unknowns with MFI values that fall outside the range of the standard curve will not be accurate. For accurate data, you must repeat the assay, diluting the unknowns with high MFI values and concentrating the unknowns with low MFI values, so that their MFI values now fall within those obtained with the standards.
NOTE: You can copy and paste the standard curve graph to another application by
right-clicking on it and selecting Copy.

2 Click OK to close the Standard Curve window.

Hide or view the Averages of the Standards, the Replicates of the Standards, and/or the Unknowns.

guava RapidQuant Analysis 16 - 15

Data Table
The data table provides the sample ID, well number, Rep (replicate), sample type, MFI, concentration value, average concentration, Rep CV, dilution factor, and original concentration. The values for Avg. Conc., Rep CV, dilution factor, and original concentration are identical for each replicate of a sample. You can expand the size of the table by clicking Expand. You can sort the data by plate rows, columns, or replicates by clicking the appropriate option under Sort by at the bottom of the table. The printed results and the exported Std Curve CSV summary file will both reflect the view feature selected here.
Sort data
· To view all the data in the table as well as the standard curve and the color-coded plate map, click Print Preview.
· To print the report, click the Print.
Statistics
You can view the statistics for the dot plot and the histogram. 1 To view the stats, click the plus sign (+) at the upper-right corner of a plot or right-click
the plot to open the plot menu. Then click Show Stats. The statistics provide you with the count, % total, % gated, x and y geometric mean, mean, median, and %CV, and particles/mL for all data in the plot (if ungated) or for data within the gate. You can resize the stats windows by clicking and dragging the bottom or right edge of the window. You can resize the columns by clicking and dragging the right edge of the column header. If the column becomes too small to adjust, close, then reopen the window to restore the column width.
Dot plot statistics
16 - 16 guava easyCyte HT System User's Guide

Histogram statistics
You must manually select any statistics that you wish to export. See "Selecting Statistics for the Spreadsheet File" on page 16-17.
Selecting Statistics for the Spreadsheet File
Although you can view any statistics on screen, you must manually select the statistics that you wish to export to the spreadsheet file. 1 Open the plot menu from either plot and select CSV Stats Template.
The CSV Stats Template dialog box appears.
Select the plot.
Then select the statistics for all events or the marker(s) in that plot.
Export up to 256 columns.
The left side of the screen displays a list of instrument settings and sample information that is always exported to the spreadsheet file. The right side of the screen allows you to select the specific statistics that will be exported for each plot. If a plot has more than one marker, you can select the stats for each marker. When you click OK, the statistic you selected will be remembered the next time you open the CSV Stats Template. · Click to select the statistic for export. Stats are shown for each marker in the plot or
total events in the plot if no markers are set. · Click Reset to ignore any changes made and revert to the stats that were selected
when you opened the CSV Stats Template.
NOTE: If you exceed 256 columns, a warning message appears requesting that you
review and remove stats until there are no more than 256 columns of stats for export.
guava RapidQuant Analysis 16 - 17

Exporting guava RapidQuant Results to an FCS 2.0 File
You can export the results from the current sample to an FCS 2.0 file. One FCS file is saved for each sample acquired. You can analyze FCS 2.0 files using a third-party flow cytometry analysis application. 1 To export analysis results to an FCS 2.0 file, click Export to FCS 2.0.
You can also select specific samples from the Analysis Sample List and click Export to FCS 2.0. The selected files are saved to individual FCS 2.0 files. 2 Select the folder where you want to save the file, and enter a file name. Click Save. The sample number is automatically appended to the file name you enter. For example, if the sample number is 1, the file will be named filename_0001.FCS.
Exporting guava RapidQuant Results to a Spreadsheet File
You can export the results to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel. The CSV file will contain only the sample information and instrument settings unless you select the stats you wish to export.
NOTE: If you saved an FCS file after making analysis changes, a spreadsheet file will
be saved automatically. 1 To export analysis results to a spreadsheet file, click Export to Spreadsheet. 2 Select the folder where you want to save the file, and enter a file name. Click Save.
Exporting guava RapidQuant Standard Curve to a Spreadsheet File
You can export the standard curve, as well as all values within the data table, to a comma-separated values (CSV) file for analysis using a spreadsheet program such as Microsoft Excel. 1 To export the standard curve results to a spreadsheet file, click Export Std Curve
CSV. 2 Select the folder where you want to save the file, and enter a file name. Click Save.
Printing Results
You can print results from the Analysis screen only. The printed results include the a standard curve, color-coded plate map, and the data table.
16 - 18 guava easyCyte HT System User's Guide

1 To view the results, click Print Preview.

2 To print the results, click Print, then click OK in the print dialog box. Or, click the Print icon from the Print Preview window.
Print Preview Icons
Move the cursor over the icon to display the description.

Zoom to fit in window, 100%, and width

Displays first, last, prev, and next pages

Printer Print Setup

Save Load Report Report

guava RapidQuant Analysis 16 - 19

guava RapidQuant Software Module Control Panels
To display the Unit Control or Sample Information control panel, click the title bar.

Sample Information

Original Sample Data
· Displays the sample #. This number defaults to 1 and advances at the completion of sample acquisition.
· Displays the Sample ID for the individual sample. The default is the well number.
· Displays the number of events acquired. The default is 500.
· The progress bar provides an estimate of the target event count during acquisition.
Particle Count Displays the total number of beads and beads/µL that have exceeded the threshold. Flow Information Displays the sample flow rate, volume of sample acquired, and acquisition duration.
Threshold Parameter and Threshold Value allow you to select the threshold parameter and enter its value. Click Set after entering the Threshold Value.
Area/Width Parameter allows you to save area and width measurements for a selected parameter.
Set Time Scale allows you to adjust the axis scale that displays the time parameter.
Click Change Parameter Names to enter your own parameter names. See "Changing Parameter Names" on page 16-21.
Count Gate allows you to select a gate used as a counting gate. All events above the threshold are saved to the file whether they are in the gate or not. However, the number of Events to Acquire is applied to events that fall within the gate. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

16 - 20 guava easyCyte HT System User's Guide

Changing Parameter Names You can change the default long (or stain) name of any parameter. The short name, for example, GRN-HLog, will still appear in parentheses after the new long name. 1 Click Change Parameter Names in the Sample Information control panel.
The Customize Parameter Names dialog box appears. Only the parameters installed on your instrument appear in the list of parameters. Area and width appear only if they were selected during the adjust settings step. 2 Highlight the existing name in the Long or Stain Name text field and type in the new name. 3 Click Update.
· You can change the long or stain names for individual samples. · If you change the names before starting acquisition, the new names will apply to all
samples in the run. · If you use the Apply Current Settings to Selected Samples button during analysis,
any changes made to long names will be applied to the selected samples.
guava RapidQuant Analysis 16 - 21

Unit Control

Detection Displays the laser status, the SSC (if installed), GRN, YLW, RED, and NIR (if installed) voltage settings, and the FSC gain.
NOTE: Do not change the voltages from this panel. Use the
sliders in Adjust Settings to adjust the GRN voltage. For this assay, it is not necessary to adjust the SSC, YLW, RED, and NIR voltages. Pump Status Displays the current status of the pump. Pump Action Indicates the current pump position. Threshold Parameters Displays the offset and threshold settings for the threshold parameter. Sample List Navigation Allows you to select the previous or next sample from the Analysis Sample List during a data set analysis.

guava RapidQuant Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava RapidQuant spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava RapidQuant FCS file to another directory or give it a new name.

16 - 22 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

RapidQuant Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter registration code. The code is case sensitive. NOTE: If registration code is correct, contact EMD Millipore Technical Support. You may need a firmware upgrade to run RapidQuant Software Module.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush.

Particle Count section of

Follow with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Beads in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush.

Follow with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and

watch for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in dot plot.

1. Laser not warmed up.
2. Instrument settings not optimal. Acquiring debris.
3. Undesirable population in sample.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.
3. Set gate to exclude undesirable population, or exclude sample from analysis.

guava RapidQuant Assay Troubleshooting 16 - 23

Problem

Possible Cause

Solutions

FSC Count under Particle Count shows events, but events appear in the wrong place in FSC vs GRN dot plot.

1. Supernatant or FITC goat anti-mouse (or human) IgG antibody not added.
2. Instrument settings not optimal.

1. Check sample. If necessary, prepare sample again from original supernatant.
2. Repeat Adjust Settings step.

Events appear in dot plot Gate set incorrectly. but not in histogram.

Ensure gate includes Capture Bead population.

Events appear off scale in dot plot or histogram.

FSC gain or GRN voltage set Adjust gain setting or voltage

incorrectly.

settings so bead-only control

population appears on scale

in FSC and between 0 and 10

in GRN fluorescence

parameter.

Standard curve is not linear. 1. Pipettes not calibrated.
2. Dilution steps performed improperly.
3. Standards or other kit components not stored properly.

1. Ensure pipettes are calibrated. Pipetting accuracy is necessary for optimal results.
2. Check accuracy of dilution steps.
3. Order new kit.

16 - 24 guava easyCyte HT System User's Guide

Problem
Unknown concentration predictions are not accurate.

Possible Cause

Solutions

1. Unknowns are under- or 1. Repeat assay diluting

over-diluted, resulting in

unknowns so that their MFI

MFI values for unknowns

values fall within range of

that are higher or lower,

MFIs obtained with

respectively, than those

standards.

obtained with standards.

NOTE: It may be

necessary to make different

dilutions of same unknown

to ensure that some diluted

samples fall within linear

range.

2. Unknowns not diluted

2. Be sure unknown dilutions

correctly.

were performed correctly

and that proper dilution

factors were entered into

software.

3. Standards were not diluted 3. Check that protocol was

correctly.

followed.

4. Samples were not properly 4. A rocker or shaker should

shaken during incubation. be used during incubation

for optimal results.

5. Plate map was set up

5. Be sure that replicates and

incorrectly in RapidQuant

individual samples are

Software Module.

defined correctly. Ensure

all unknown and control

dilutions were properly

selected.

guava RapidQuant Assay Troubleshooting 16 - 25

16 - 26 guava easyCyte HT System User's Guide

CHAPTER 17 Troubleshooting

The following troubleshooting sections can also be found in their corresponding chapters.
General System Troubleshooting

Problem

Possible Causes

Solutions

Laptop prompts for user Laptop is set up for

ID or password.

authorization.

Do not enter password. Click OK or Cancel to continue. Contact your IT department for assistance with any modifications. The original laptop setup does not require a password.

During start-up, laptop freezes on particular screen.

System may be searching Press Enter to continue. Reboot for directory during startup. computer, if necessary.

Message: The instrument appears to be either off or not connected. You can run in Analysis mode only.

guavaSoft Software launches, but only Analysis mode is available when an assay is launched.

Registration code not entered or not entered correctly.

Enter registration code and ensure all characters are correct.

General System Troubleshooting 17 - 1

Problem

Possible Causes

Solutions

Laptop keeps shutting down.

1. Power supply to laptop is faulty.
2. Screen saver is interfering.

For InCyte only Message: Sorry - this unlock is invalid.
Noise occurring during sampling.

Incorrect or no unlock key. Ensure correct unlock key is entered. If necessary, contact customer support to obtain unlock key.

1. Mixer paddle is making contact with the plate.
2. Mixer paddle may be misaligned or bent.

1. Ensure you are using a compatible plate. See "Compatible Microplates" on page D-6.
2. Contact EMD Millipore Technical Support.

Message:

The door sensor switch is

The tray door is open. damaged.

appears when the door is

shut.

Contact EMD Millipore Technical Support.

Message: TRAY HOLD OFF STATE.

1. The program is waiting 1. Wait approximately 30 seconds

for the automation to

for re-initialization.

reset.

2. The tray door was

2. Keep tray door closed during

opened.

acquisition.

3. The program lost

3. Exit guavaSoft, turn the

detection of automation instrument off, then on again.

position or status.

Restart guavaSoft, then open the

worklist.

4. There is a mechanical or 4. Contact EMD Millipore Technical

electrical problem with

Support.

the automation or mixer

function.

17 - 2 guava easyCyte HT System User's Guide

easyCheck Procedure Troubleshooting

Problem

Possible Cause

Solutions

No event counts appear for 1. Wrong beads used. RED2 and NIR2.
2. Red laser not operating or problem with the signal.

1. Use easyCheck beads. Do not use Guava Check beads.
2. Contact EMD Millipore Technical Support.

One or more Particles/mL results falls outside the acceptance range (appear in red).

1. System is not clean.

2. Incorrect information entered in easyCheck fields.

3. Bead suspension incorrectly prepared.

FSC, SSC, GRN, YLW, RED, NIR, RED2, and/or NIR2 intensity is >10% outside the acceptable range.

1. System is not clean.
2. Problem with detector or laser.

1. Run Quick Clean. If results are still outside range, run Guava Clean.
2. If problem persists, contact EMD Millipore Technical Support.

Particle counts for FSC, SSC, GRN, YLW, RED, NIR, RED2, and/or NIR2 intensity is not within 100 events of each other.

1. If FSC count is low, capillary may not be seated correctly.
2. If any of the counts is low, possible problem with detector.

easyCheck Procedure Troubleshooting 17 - 3

Problem

Possible Cause

Solutions

Few events, as indicated in Particle Count section of Sample Information control panel.

1. Clogged flow cell. 2. Insufficient sample volume.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells and 150 µL for 0.5-mL

tubes.

Use 0.5-mL tubes in the

tube position, as a higher

volume (1 mL) is required

for 1.5-mL tubes.

3. No beads in sample.

3. Ensure correct sample is

loaded.

4. Clogged flow cell.

4. Perform a Backflush. Follow with Quick Clean.

5. Broken flow cell.

5. Remove flow cell and inspect for damage,

including chipped capillary.

Replace if necessary.

6. Sample pump not working. 6. Run Quick Clean and watch for fluid in waste vial.

7. Laser not operational.

7. Contact EMD Millipore Technical Support.

8. Loose fitting on minstac 8. Ensure tubing connector is tubing (under metal plate). secure.

Message: The login user does NOT have read/write permission to the file GuavaCheckLog.csv in the Log folder. Contact the system administrator for assistance.

The user was not assigned access control to the system.

Contact your system administrator for user access to the software.

17 - 4 guava easyCyte HT System User's Guide

guava ViaCount Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save ViaCount spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save ViaCount FCS file to another directory or give it a new name.

ViaCount Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Message: Less than 10 particles/µL. Sample is too dilute. Accuracy may be compromised.

1. Sample concentration is too 1. Recommended

low.

concentration range for

accurate counting is 1 x 104

to 5 x 105 cells/mL. Refer to

Guava PCA-96 ViaCount

Flex Reagent package

insert for proper dilution

instructions.

2. Clogged flow cell.

2. Perform a Backflush.

Follow with Quick Clean.

3. Settings were not adjusted 3. Adjust Settings and make

correctly.

necessary changes.

Message:

Sample is too concentrated.

Please dilute or accuracy

may be compromised.

Recommended concentration range for accurate counting is 1 x 104 to 5 x 105 cells/mL. Refer to Guava PCA-96 ViaCount Flex Reagent package insert for proper dilution instructions.

guava ViaCount Assay Troubleshooting 17 - 5

Problem

Possible Cause

Solutions

Few events, as indicated in Particle Count section of Sample Information control panel.

1. Clogged flow cell. 2. Insufficient sample volume.
3. Cells in suspension have settled.
4. Cells were lysed during staining.
5. Sample was not properly stained.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Events appear off scale in dot plots.

FSC gain or PM1 and /or PM2 Adjust gain setting or voltage

voltages set incorrectly, or settings so positive

samples staining brightly.

populations appear on scale.

17 - 6 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Viability is significantly lower 1. Sample was not mixed

1. Ensure sample mixing

than expected.

properly before acquisition. option was selected in

WorkEdit Software.

2. Residual bleach in flow cell. 2. Run Quick Clean. Restain

fresh cell sample.

3. Buffer used is non-isotonic 3. Check osmolarity and pH.

or pH is out of physiological pH should be 7.27.4.

range.

4. Cells are fragile and

4. Resuspend cells in medium

stressed by preparation

containing 1020% FBS for

procedure.

30 min with frequent, gentle

agitation. Restain.

Cell count is significantly different than expected.

1. Dilution factor or original 1. Ensure dilution factor and

volume entered incorrectly. original volume are correct.

2. Sample was not mixed

2. Ensure sample mixing

properly before acquisition. option was selected in

WorkEdit Software.

3. Adherent cells were not 3. Check culture vessel to

adequately removed from ensure cells were removed.

culture surface.

Repeat procedure to

release cells if necessary.

4. Ensure reagent is not

4. Sample was not stained

expired or was not exposed

completely.

to excessive light. Ensure

sufficient amount of

ViaCount Flex Reagent was

used.

5. Sample dilution factor is too 5. Use at least a 1:10 of

low.

sample to Viacount reagent,

or use Viacount Flex CS

Reagent (Catalog No.

4500-0110).

6. Clogged flow cell.

6. Perform a Backflush. Follow

with Quick Clean.

7. Cells are aggregated.

7. Prepare uniform suspension. Use ViaCount

CDR to disaggregate cells.

8. Instrument settings not optimal.

8. Adjust settings so positive populations appear on scale and debris is below

threshold.

9. Incorrect sample tubes or plates used.

9. See Order Information for list of supported tubes and plates.

guava ViaCount Assay Troubleshooting 17 - 7

Problem

Possible Cause

Solutions

guava Excel Utility will not start Microsoft Excel when you try to open a CSV file

1. File is not a ViaCount file or 1. Excel Utility can be used

it was created by a version only for ViaCount files

of CytoSoft Software prior created in CytoSoft

to version 2.0.

Software, version 2.0 or

later.

2. Templates folder is not

2. Be sure Templates folder

located in same directory

and executable are in same

as utility program.

folder.

guava ExpressPlus Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava ExpressPlus spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava ExpressPlus FCS file to another directory or give it a new name.

guava ExpressPlus Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Cell Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

17 - 8 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in plots displaying GRN, YLW, or RED.

1. Laser not warmed up.
2. Instrument settings not optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell Count shows events, but the events appear in the wrong places in plots displaying GRN, YLW, and/ or RED.

1. Sample was not stained. 2. Cell lysis.

1. Check sample. If necessary, restain sample from original suspension.
2. Check buffers used to process cells.

Events appear in Plot 1 but Plot 1 gate excludes events,

not in Plot 2 or Plot 3.

and gate is applied to Plot 2

and/or Plot 3.

Uncheck Plot 1 (under Gated On) for Plots 2 and 3 to see if events appear. Or, set Plot 1 gate to include population of interest.

Events appear in Plot 2 but not in Plot 3.

Plot 2 gate excludes events, and gate is applied to Plot 3.

Uncheck Plot 2 (under Gated On) for Plot 3 to see if events appear. Or, set Plot 2 gate to include population of interest.

Events appear off scale in dot plots or histograms.

FSC gain or SSC, GRN, YLW, Adjust gain setting or voltage

and/or RED voltages set

settings so positive

incorrectly, or samples

populations appear on scale.

staining brightly.

Repeat Adjust Settings with

negative sample. Adjust

compensation settings.

guava ExpressPlus Assay Troubleshooting 17 - 9

Problem

Possible Cause

Solutions

Poor resolution between positive and negative populations.

1. Voltages too low to detect 1. Adjust settings to increase

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

2. Incomplete staining with 2. Ensure positive control is

fluorescent probe, or

staining adequately and

fluorescent probe

with correct reagent.

inappropriate for cell type.

3. Fluorescent probes over- 3. Refer to reagent package

exposed to light, stored

insert for proper storage

improperly, or expired.

instructions. Do not expose

reagent to excessive light.

Do not use expired

reagents.

4. Non-specific binding of fluorescent probes.

4. If using antibody-based probes, try Fc blocking reagent during staining to

minimize non-specific

binding. Otherwise, titer the

fluorescent probes down to

reduce the nonspecific

staining.

5. Background noise too high. 5. Adjust settings to increase FSC threshold to remove

debris. Or, wash stained

sample and reacquire.

Poor resolution between 1. Incomplete staining with 1. Check expiration date and

positive populations in plots reagent(s).

amount of reagent(s) used

displaying GRN, YLW, and/

in staining.

or RED.

2. Too much reagent in

2. Washing cells may remove

staining tube.

residual reagent.

3. Fluorescence background 3. Washing cells may remove

too high.

residual reagent.

4. Voltage too high causing 4. Adjust settings to reduce

signal to bleed into other

voltage. Adjust

parameters.

compensation settings.

5. Voltage too low to optimally 5. Adjust settings to increase

detect positive signal.

voltage. Adjust

compensation settings.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris. Or, select one of the

fluorescence parameters as

the threshold.

17 - 10 guava easyCyte HT System User's Guide

guava ExpressPro Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava ExpressPro spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava ExpressPro FCS file to another directory or give it a new name.

ExpressPro Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Cell Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

guava ExpressPro Assay Troubleshooting 17 - 11

Problem

Possible Cause

Solutions

Unexpected events appearing in plots displaying GRN, YLW, RED, NIR, RED2, and/or NIR2.

1. Laser not warmed up.
2. Instrument settings not optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell Count shows events, but the events appear in the wrong places in plots displaying GRN, YLW, RED, NIR, RED2, and/or NIR2.

1. Sample was not stained. 2. Cell lysis.

1. Check sample. If necessary, restain sample from original suspension.
2. Check buffers used to process cells.

Events appear in some plots but not in others.

Ensure correct gate is selected for plot in question.

1. Open plot menu, point to Apply Gates and select gate.
2. Check gate definition to ensure it includes the correct regions and operators.

Events appear off scale in dot plots or histograms.

FSC, SSC, GRN, YLW, RED, Adjust gain setting so positive

NIR, RED2, and/or NIR2

populations appear on scale.

gains set incorrectly, or

Repeat Adjust Settings with

samples staining brightly.

negative sample. Adjust

compensation settings.

Cannot resolve dim positive Dirty capillary. staining from background signal.

Perform at least one cycle of Guava Clean. While acquiring samples, select Clean & Rinse instead of Quick Clean, and if necessary, run it frequently.

17 - 12 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Poor resolution between positive and negative populations.

1. Gains too low to detect

1. Adjust settings to increase

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

2. Incomplete staining with 2. Ensure positive control is

fluorescent probe, or

staining adequately and

fluorescent probe

with correct reagent.

inappropriate for cell type.

3. Fluorescent probes over- 3. Refer to reagent package

exposed to light, stored

insert for proper storage

improperly, or expired.

instructions. Do not expose

reagent to excessive light.

Do not use expired

reagents.

4. Non-specific binding of fluorescent probes.

4. If using antibody-based probes, try Fc blocking reagent during staining to

minimize non-specific

binding. Otherwise, titer the

fluorescent probes down to

reduce the nonspecific

staining.

5. Background noise too high. 5. Adjust settings to increase FSC threshold to remove

debris. Or, wash stained

sample and reacquire.

Poor resolution between 1. Incomplete staining with 1. Check expiration date and

positive populations in plots reagent(s).

amount of reagent(s) used

displaying GRN, YLW,

in staining.

RED, NIR, RED2, and/or 2. Too much reagent in

NIR2.

staining tube.

2. Washing cells may remove residual reagent.

3. Fluorescence background 3. Washing cells may remove

too high.

residual reagent.

4. Gains too high causing

4. Adjust settings to reduce

signal to bleed into other

gain. Adjust compensation

parameters.

settings.

5. Gain too low to optimally 5. Adjust settings to increase

detect positive signal.

gain. Adjust compensation

settings.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris. Or, select one of the

fluorescence parameters as

the threshold.

guava ExpressPro Assay Troubleshooting 17 - 13

guava InCyte Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava InCyte spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava InCyte FCS file to another directory or give it a new name.

Incyte Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Gates and/or events in plots 1. Data file or method is

Click on the Analyzed Group

disappear.

selected.

in the Analysed Data pane to

2. Data was acquired in tubes. display data and gates.

3. More than 96 samples were

acquired.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Cell Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

17 - 14 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events

1. Laser not warmed up.

appearing in plots

displaying GRN, YEL, RED, 2. Instrument settings not

NIR, RED2, and/or NIR2.

optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell

1. Sample was not stained.

Count shows events, but

the events appear in the

wrong places in plots

2. Cell lysis.

displaying GRN, YEL, RED,

NIR, RED2, and/or NIR2.

1. Check sample. If necessary, restain sample from original suspension.
2. Check buffers used to process cells.

Events appear in some plots but not in others.

Ensure correct gate is selected for plot in question.

1. Open plot menu, point to Apply Gates and select gate.
2. Check gate definition to ensure it includes the correct regions and operators.

Events appear off scale in dot plots or histograms.

FSC SSC, GRN, YLW, RED, NIR, RED2, and/or NIR2 gains set incorrectly, or samples staining brightly.

Adjust gain setting so positive populations appear on scale. Repeat Adjust Settings with negative sample. Adjust compensation settings.

guava InCyte Assay Troubleshooting 17 - 15

Problem

Possible Cause

Solutions

Poor resolution between positive and negative populations.

1. Gains too low to detect

1. Adjust settings to increase

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

2. Incomplete staining with 2. Ensure positive control is

fluorescent probe, or

staining adequately and

fluorescent probe

with correct reagent.

inappropriate for cell type.

3. Fluorescent probes over- 3. Refer to reagent package

exposed to light, stored

insert for proper storage

improperly, or expired.

instructions. Do not expose

reagent to excessive light.

Do not use expired

reagents.

4. Non-specific binding of fluorescent probes.

4. If using antibody-based probes, try Fc blocking reagent during staining to

minimize non-specific

binding. Otherwise, titer the

fluorescent probes down to

reduce the nonspecific

staining.

5. Background noise too high. 5. Adjust settings to increase FSC threshold to remove

debris. Or, wash stained

sample and reacquire.

Cannot resolve dim positive Dirty capillary. staining from background signal.

Perform at least one cycle of Guava Clean. While acquiring samples, select Clean & Rinse instead of Quick Clean, and if necessary, run it frequently.

17 - 16 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Poor resolution between 1. Incomplete staining with 1. Check expiration date and

positive populations in plots reagent(s).

amount of reagent(s) used

displaying GRN, YEL, RED,

in staining.

NIR, RED2, and/or NIR2. 2. Too much reagent in

2. Washing cells may remove

staining tube.

residual reagent.

3. Fluorescence background 3. Washing cells may remove

too high.

residual reagent.

4. Gain too high causing

4. Adjust settings to reduce

signal to bleed into other

gain. Adjust compensation

parameters.

settings.

5. Gain too low to optimally 5. Adjust settings to increase

detect positive signal.

gain. Adjust compensation

settings.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris. Or, select one of the

fluorescence parameters as

the threshold.

guava Nexin Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava Nexin spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava Nexin FCS file to another directory or give it a new name.

Nexin Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

guava Nexin Assay Troubleshooting 17 - 17

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Particle Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in PM1 vs PM2 dot plot.

1. Laser not warmed up.
2. Threshold set too low or debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in FSC vs FSC vs PM1 gate excludes PM1 dot plot but not in PM1 events. vs PM2 dot plot.

Ensure FSC vs PM1 gate is set to include population of interest.

Events appear off scale in dot plots.

PM1 and /or PM2 voltages set Adjust settings to increase or

incorrectly, or samples

decrease PM1 and/or PM2

staining brightly.

voltages so positive

populations appear on scale.

Repeat Adjust Settings with

negative sample.

17 - 18 guava easyCyte HT System User's Guide

Problem
Poor resolution between PE+ and PE populations.
Poor resolution between 7-AAD+ and PE+ populations.

Possible Cause

Solutions

1. PM1 voltage too low to

1. Adjust settings to increase

detect PE signal.

PM1 signal.

2. Incomplete staining with 2. Refer to package insert for

Annexin V-PE.

proper staining instructions.

3. Incomplete induction of 3. Check induction control.

apoptosis in test

suspension.

4. Uninduced population

4. Stabilize unstained cells by

reacting with Annexin V

resuspending in 1020%

because cells have been

FBS for 30 min and restain.

stressed.

5. Apoptotic bodies included 5. Adjust FSC threshold or set

in analysis.

gate to remove debris.

6. Annexin V expired, or not 6. Refer to package insert for

stored properly.

proper storage instructions.

Do not use expired reagent.

Do not expose reagent to

light.

7. Background noise too high. 7. Adjust settings to increase

FSC threshold to remove

debris.

8. Fluorescence background 8. Washing cells may remove

too high.

residual reagent.

1. High viability sample.

1. Resolution may be difficult if

few dead cells in sample.

2. Incomplete staining with 2. Check 7-AAD expiration

7-AAD.

date.

3. Too much Annexin V-PE in 3. Washing cells may remove

staining tube.

residual reagent.

4. Fluorescence background 4. Washing cells may remove

too high.

residual reagent.

5. PM1 signal too high

5. Adjust settings to reduce

causing PE to bleed into

PM1 voltage.

PM2.

6. PM2 voltage too low to

6. Adjust settings to increase

optimally detect 7-AAD

PM2 voltage.

signal.

7. Background noise too high. 7. Adjust settings to increase

FSC threshold to remove

debris.

guava Nexin Assay Troubleshooting 17 - 19

guava Caspase Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save Caspase spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save Caspase FCS file to another directory or give it a new name.

Caspase Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Particle Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

17 - 20 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Unexpected events

1. Laser not warmed up.

appearing in a two-color dot

plot.

2. Threshold set too low or

debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in gating dot Gate excludes events. plot but not in analysis dot plot.

Ensure gate is set to include population of interest.

Poor resolution between Caspase Reagentpositive and Caspase Reagent negative populations.

1. Voltage too low to detect 1. Adjust settings to increase

fluorescence signal.

2. Incomplete staining with 2. Refer to package insert for

Caspase Reagent.

proper staining instructions.

3. Incomplete induction of 3. Check induction control.

apoptosis in test

suspension.

4. Uninduced population

4. Stabilize unstained cells by

reacting with Caspase

resuspending in 1020%

Reagent because cells

FBS for 30 min and restain.

have been stressed.

5. Apoptotic bodies included 5. Adjust FSC threshold or set

in analysis.

gate to remove debris.

6. Caspase Reagent expired 6. Refer to package insert for

or not stored properly.

proper storage instructions.

Do not use expired reagent

or reagent exposed to light.

7. Background noise too high. 7. Adjust settings to increase

FSC threshold to remove

debris.

8. Fluorescence background 8. Washing cells may remove

too high.

residual reagent.

guava Caspase Assay Troubleshooting 17 - 21

Problem
Poor resolution between 7-AAD+ and Caspase Reagentpositive populations.
Events appear off scale in dot plots.

Possible Cause

Solutions

1. High viability sample.

1. Resolution may be difficult if

few dead cells in sample.

2. Incomplete staining with 2. Check 7-AAD expiration

7-AAD.

date.

3. Too much Caspase

3. Washing cells may remove

Reagent in staining tube.

residual reagent.

4. Fluorescence background 4. Washing cells may remove

too high.

residual reagent.

5. Fluorescence signal too 5. Adjust settings to reduce

high causing Caspase

voltage corresponding to

Reagent to overlap into

parameter used to detect

other fluorescence

Caspase Reagent.

parameter.

6. RED voltage too low to

6. Adjust settings to increase

optimally detect 7-AAD

RED voltage.

signal.

7. Background noise too high. 7. Adjust settings to increase

FSC threshold to remove

debris.

GRN, YLW, and /or RED voltages set incorrectly, or samples staining brightly.

Adjust settings to increase or decrease GRN, YLW, and/or RED voltages so positive populations appear on scale. Repeat Adjust Settings with negative sample.

guava TUNEL Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save TUNEL spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save TUNEL FCS file to another directory or give it a new name.

TUNEL Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

17 - 22 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Particle Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Poor resolution between TRITC+ and TRITC populations.

1. Fluorescence background too high.
2. PM1 voltage too low to detect PM1 signal.
3. Incomplete induction of apoptosis in test suspension.
4. Reagent expired or not stored properly.

guava TUNEL Assay Troubleshooting 17 - 23

Problem

Possible Cause

Apoptotic population shows Sample was not stained

dim TRITC signal.

completely.

Staining artifacts appear in dot plot or histogram.

Cells were not properly resuspended in the DNA Labeling Mix or Anti-BrdU Staining Mix.

guava MitoPotential Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save MitoPotential spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save MitoPotential FCS file to another directory or give it a new name.

MitoPotential Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Cell Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

17 - 24 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in plots displaying PM1, PM2, or PM3.

1. Laser not warmed up.
2. Instrument settings not optimal. Acquiring debris.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.

FSC Count under Cell Count shows events, but there are no events in plots displaying PM1, PM2, and/ or PM3.

1. Sample was not stained. 2. Cell lysis.

1. Check sample. If necessary, restain sample from original suspension.
2. Check buffers used to process cells.

Events appear in Plot 1 but Plot 1 gate excludes events, Set Plot 1 gate to include

not in Plot 2 or Plot 3.

and gate is applied to Plot 2 population of interest.

and Plot 3.

Events appear off scale in dot plots or histograms.

FSC gain or PM1, PM2, and / Adjust gain setting or voltage

or PM3 voltages set

settings so positive

incorrectly, or samples

populations appear on scale.

staining brightly.

Repeat Adjust Settings with

negative sample. Adjust

compensation settings.

guava MitoPotential Assay Troubleshooting 17 - 25

Problem

Possible Cause

Solutions

Poor resolution between positive and negative populations.

1. Voltages too low to detect 1. Adjust settings to increase

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

2. Voltages too high to detect 2. Adjust settings to decrease

fluorescent signals.

fluorescent signal. Adjust

compensation settings.

3. Incomplete staining with 3. Ensure positive control is

JC1 and/or 7-AAD.

staining adequately.

Otherwise, titer reagents to

determine optimal

concentration.

4. Reagents over-exposed to 4. Refer to reagent package

light, stored improperly, or insert for proper storage

expired.

instructions. Do not expose

reagent to excessive light.

Do not use expired

reagents.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris. Or, wash stained

sample and reacquire.

Poor resolution between 1. Incomplete staining with 1. Check expiration date and

positive populations in plots reagent(s), cell

amount of reagent(s) used

displaying PM1, PM2, and/ concentration too high, or in staining. Ensure sample

or PM3.

staining time too short.

is not too concentrated.

Ensure staining time was

appropriate (see package

insert).

2. Too much reagent in

2. Titer both dyes to determine

staining tube.

their optimum

concentration. Repeat

experiment with optimized

reagents.

3. Voltage too high causing 3. Adjust settings to reduce

signal to bleed into other

voltage. Adjust

parameters.

compensation settings.

4. Voltage too low to optimally 4. Adjust settings to increase

detect positive signal.

voltage. Adjust

compensation settings.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris.

17 - 26 guava easyCyte HT System User's Guide

Problem
Cell concentration decreases during acquisition.

Possible Cause
1. Cells are settling.
2. Adherent cells are reattaching.

Solutions
1. Be sure that samples are mixed prior to acquisition.
2. Use low-binding, 96-well plates. If that is not sufficient to prevent reattachment, lower the FBS in the medium to 5%.

guava Cell Cycle Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save Cell Cycle spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save Cell Cycle FCS file to another directory or give it a new name.

Cell Cycle Software Module A registration code was not

starts in Analysis mode. entered or was entered

Acquisition mode is not

incorrectly.

available.

Enter the registration code. The code is case sensitive.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Particle Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

guava Cell Cycle Assay Troubleshooting 17 - 27

Problem

Possible Cause

Solutions

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Debris appearing in the PM2 histogram.

FSC threshold set too low.

Increase the FSC threshold to remove as much debris as possible.

Poor resolution among G0/ G1, S, and G2/M phases.

Poor sample quality or

Ensure cells were healthy and

protocol not properly followed. growing prior to fixing and

staining. Ensure proper

protocol was followed and

correct amount of PI was

used.

guava CellPaint Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save CellPaint spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save CellPaint FCS file to another directory or give it a new name.

CellPaint Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

17 - 28 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Particle Count section of

with Quick Clean.

Sample Information control

2. Minimum sample volume is

panel.

2. Insufficient sample volume. 100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube not properly 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in PM3 vs PM1 dot plot.

1. Laser not warmed up.
2. Threshold set too low or debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in FSC vs FSC vs PM3 gate excludes PM3 dot plot but not in PM3 events. vs PM1 dot plot.

Ensure FSC vs PM3 gate is set to include population of interest.

guava CellPaint Assay Troubleshooting 17 - 29

Problem

Possible Cause

Solutions

Poor resolution between Green (PM3)-positive and double-negative populations.

1. PM3 voltage too low to

1. Adjust settings to increase

detect signal.

Green (PM3) signal. Repeat

compensation adjustment.

2. Incomplete staining with 2. Refer to package insert for

Guava CFSE reagent.

proper staining instructions.

3. Debris included in analysis. 3. Adjust FSC threshold or set

gate to remove debris.

4. Guava CFSE expired, or 4. Refer to package insert for

not stored properly.

proper storage instructions.

Do not use expired reagent.

Do not expose reagent to

light.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris.

Poor resolution between 1. Incomplete staining with 1. Check expiration date of

Green (PM3)-positive and orange fluorescent antibody probes and/or titer reagent

double-positive populations. probes.

to optimize staining.

2. Too much Guava CFSE 2. Repeat experiment, painting

reagent used.

cells with a lower reagent

concentration.

3. Fluorescence background 3. Washing cells may remove

too high.

residual reagent.

4. Green (PM3) signal too 4. Adjust settings to reduce

high, causing Guava CFSE PM3 voltage. Repeat

reagent to bleed into

compensation adjustment.

Orange (PM1).

5. PM1 voltage too low to 5. Adjust settings to increase

optimally detect orange

PM1 voltage. Repeat

signal.

compensation adjustment.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris.

Events appear off scale in dot plots.

PM3 and /or PM1 voltages set Adjust settings to increase or

incorrectly, or samples

decrease PM3 and/or PM1

staining brightly.

voltages so positive

populations appear on scale.

Repeat Adjust Settings with

negative sample. Repeat

compensation adjustment.

17 - 30 guava easyCyte HT System User's Guide

guava CellToxicity Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save CellToxicity spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save CellToxicity FCS file to another directory or give it a new name.

CellToxicity Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Particle Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

properly loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

guava CellToxicity Assay Troubleshooting 17 - 31

Problem

Possible Cause

Solutions

Unexpected events appearing in PM3 vs PM2 dot plot.

1. Laser not warmed up.
2. Threshold set too low or debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in FSC vs FSC vs PM3 gate excludes PM3 dot plot but not in PM3 events. vs PM2 dot plot.

Ensure FSC vs PM3 gate is set to include population of interest.

Poor resolution between target and effector cell populations.

1. PM3 voltage too low to

1. Adjust settings to increase

detect PM3 signal.

PM3 signal. Adjust

compensation settings.

2. Incomplete staining with 2. Refer to package insert for

Guava CFSE reagent.

proper staining instructions.

3. Debris included in analysis. 3. Adjust FSC threshold or set

gate to remove debris.

4. Guava CFSE reagent

4. Refer to package insert for

expired or not stored

proper storage instructions.

properly.

Do not use expired reagent

or reagent exposed to light.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris.

6. Some effector cells appear 6. Use quadrant markers to

to be picking up Guava

separate CFSE-positive

CFSE dye and can't be

effector cells from dead

separated from target cells target cells.

using a gate.

Poor resolution between dead and live target cell populations.

1. High viability sample.

1. Resolution may be difficult if

few dead cells in sample.

2. Incomplete staining with 2. Check 7-AAD expiration

7-AAD.

date.

3. Too much Guava CFSE 3. Repeat experiment, painting

reagent used.

target cells with a lower

reagent concentration.

4. PM3 signal too high

4. Adjust settings to reduce

causing Guava CFSE

PM3 voltage. Adjust

reagent to bleed into PM2. compensation settings.

5. PM2 voltage too low to

5. Adjust settings to increase

optimally detect 7-AAD

PM2 voltage. Adjust

signal.

compensation settings.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris.

17 - 32 guava easyCyte HT System User's Guide

Problem
Events appear off scale in dot plots.
All samples contain target cells that are 100% killed.

Possible Cause

Solutions

PM3 and /or PM2 voltages set Adjust settings to increase or

incorrectly, or samples

decrease PM3 and/or PM2

staining brightly.

voltages so positive

populations appear on scale.

Repeat Adjust Settings with

negative sample. Adjust

compensation settings.

FSC vs PM2 dot plot axis selected with gate enabled.

Select FSC vs PM3 dot plot and adjust gate if necessary to include all target cells.

guava CellGrowth Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save CellGrowth spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save CellGrowth FCS file to another directory or give it a new name.

CellGrowth Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter the registration code. The code is case sensitive.

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Particle Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Cells in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

guava CellGrowth Assay Troubleshooting 17 - 33

Problem

Possible Cause

Solutions

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

properly loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in PM3 vs PM2 dot plot or PM3 histogram.

1. Laser not warmed up.
2. Threshold set too low or debris included in gate.

1. Allow laser to warm up 10 min before acquisition.
2. If threshold did not exclude debris when sample was acquired, set gate to remove excess debris.

Events appear in FSC vs FSC vs PM3 gate excludes PM3 dot plot but not in PM3 events. vs PM2 dot plot.

Ensure FSC vs PM3 gate is set to include population of interest.

Events appear in FSC vs FSC vs PM2 gate excludes PM2 dot plot but not in PM3 events. histogram.

Ensure FSC vs PM2 gate is set to include population of interest.

Poor resolution between 1. PM3 voltage too low to

1. Adjust settings to increase

resting and proliferating cell detect PM3 signal.

PM3 signal.

populations.

2. Incomplete staining with 2. Refer to package insert for

guava painting reagent.

proper staining instructions.

3. Debris included in analysis. 3. Adjust FSC threshold or set

gate to remove debris.

4. guava painting reagent

4. Refer to package insert for

expired or not stored

proper storage instructions.

properly.

Do not use expired reagent

or reagent exposed to light.

5. Background noise too high. 5. Adjust settings to increase

FSC threshold to remove

debris.

17 - 34 guava easyCyte HT System User's Guide

Problem
Poor resolution between dead and live cell populations.
Events appear off scale in dot plots.

Possible Cause

Solutions

1. High viability sample.

1. Resolution may be difficult if

few dead cells in sample.

2. Incomplete staining with PI. 2. Check PI expiration date.

3. Too much guava painting 3. Repeat experiment, painting

reagent used.

cells with a lower reagent

concentration.

4. PM3 signal too high

4. Adjust settings to reduce

causing guava painting

PM3 voltage.

reagent to bleed into PM2.

5. PM2 voltage too low to

5. Adjust settings to increase

optimally detect PI signal. PM2 voltage.

6. Background noise too high. 6. Adjust settings to increase

FSC threshold to remove

debris.

PM3 and/or PM2 voltages and/or FSC gain set incorrectly, or samples staining brightly.

Adjust settings to increase or decrease PM3 and/or PM2 voltages and/or FSC gain so positive populations appear on scale. Repeat Adjust Settings.

guava RapidQuant Assay Troubleshooting

Problem

Possible Cause

Solutions

Message:

Spreadsheet file with same

This file already exists. You file name already exists in

must pick a new name.

selected directory.

Save guava RapidQuant spreadsheet file to another directory or give it a new name.

Message: This file exists with readonly attributes. Please use a different file name.

FCS file with same file name already exists in selected directory.

Save guava RapidQuant FCS file to another directory or give it a new name.

RapidQuant Software Module starts in Analysis mode. Acquisition mode is not available.

A registration code was not entered or was entered incorrectly.

Enter registration code. The code is case sensitive. NOTE: If registration code is correct, contact EMD Millipore Technical Support. You may need a firmware upgrade to run RapidQuant Software Module.

guava RapidQuant Assay Troubleshooting 17 - 35

Problem

Possible Cause

Solutions

Few events, as indicated in 1. Clogged flow cell.

1. Perform a Backflush. Follow

Particle Count section of

with Quick Clean.

Sample Information control 2. Insufficient sample volume. 2. Minimum sample volume is

panel.

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Beads in suspension have 3. Ensure sample mixing

settled.

option was selected in

WorkEdit Software.

No events, as indicated in Particle Count section of Sample Information control panel.

1. Sample tube or plate not 1. Ensure tube or plate is in

loaded.

place and tray is loaded.

2. Insufficient sample volume. 2. Minimum sample volume is

100 µL for round-bottom

wells, 150 µL for 0.5-mL

tubes, and 900 µL for

1.5-mL tubes.

3. Clogged flow cell.

3. Perform a Backflush. Follow

with Quick Clean.

4. Broken flow cell.

4. Remove flow cell and

inspect for damage.

Replace if necessary.

5. Sample pump not working. 5. Run Quick Clean and watch

for fluid in waste vial.

6. Laser not operational.

6. Contact EMD Millipore

Technical Support.

7. Loose fitting on minstac 7. Ensure tubing connector is

tubing (under metal plate). secure.

Unexpected events appearing in dot plot.

1. Laser not warmed up.
2. Instrument settings not optimal. Acquiring debris.
3. Undesirable population in sample.

1. Allow laser to warm up 10 min before acquisition.
2. Adjust settings so debris is below threshold.
3. Set gate to exclude undesirable population, or exclude sample from analysis.

FSC Count under Particle Count shows events, but events appear in the wrong place in FSC vs GRN dot plot.

1. Supernatant or FITC goat anti-mouse (or human) IgG antibody not added.
2. Instrument settings not optimal.

1. Check sample. If necessary, prepare sample again from original supernatant.
2. Repeat Adjust Settings step.

Events appear in dot plot Gate set incorrectly. but not in histogram.

Ensure gate includes Capture Bead population.

17 - 36 guava easyCyte HT System User's Guide

Problem

Possible Cause

Solutions

Events appear off scale in dot plot or histogram.

FSC gain or GRN voltage set Adjust gain setting or voltage

incorrectly.

settings so bead-only control

population appears on scale in

FSC and between 0 and 10 in

GRN fluorescence parameter.

Standard curve is not linear. 1. Pipettes not calibrated.
2. Dilution steps performed improperly.
3. Standards or other kit components not stored properly.

1. Ensure pipettes are calibrated. Pipetting accuracy is necessary for optimal results.
2. Check accuracy of dilution steps.
3. Order new kit.

Unknown concentration predictions are not accurate.

1. Unknowns are under- or 1. Repeat assay diluting

over-diluted, resulting in

unknowns so that their MFI

MFI values for unknowns

values fall within range of

that are higher or lower,

MFIs obtained with

respectively, than those

standards.

obtained with standards.

NOTE: It may be necessary

to make different dilutions of

same unknown to ensure

that some diluted samples

fall within linear range.

2. Unknowns not diluted correctly.

2. Be sure unknown dilutions were performed correctly

and that proper dilution

factors were entered into

software.

3. Standards were not diluted 3. Check that protocol was

correctly.

followed.

4. Samples were not properly 4. A rocker or shaker should shaken during incubation. be used during incubation

for optimal results.

5. Plate map was set up

5. Be sure that replicates and

incorrectly in RapidQuant

individual samples are

Software Module.

defined correctly. Ensure all

unknown and control

dilutions were properly

selected.

guava RapidQuant Assay Troubleshooting 17 - 37

17 - 38 guava easyCyte HT System User's Guide

Appendix A EasyFit Case Study Examples
guava ViaCount EasyFit uses computer-assisted population analysis to determine cell count and differentiate viable from non-viable (dead and apoptotic) cells and whole cells from debris. The EasyFit analysis algorithm was designed to improve upon the ViaCount analysis ease-of-use and provide better discrimination of live cells and dead cells using 3-dimensional data analysis, rather than the 2-dimensional analysis available when you manually adjust in the ViaCount Software Module. EasyFit is not constrained by the linear FSC and PM1 markers found in manual ViaCount analysis, meaning that your results are less sensitive to the presence of large amounts of contaminating debris. Hence more accurate results can be obtained. There are biological circumstances in which the EasyFit analysis method is not recommended for the most accurate results. For example, when cell cultures contain a significant amount of apoptotic cells, especially if those apoptotic cells are in close proximity to the viable cells based on FSC and PM1 values, or if all of the cells in the culture are apoptotic. This happens most often when cultures are induced to undergo apoptosis, but it can also happen to cells under normal culture conditions. Another instance in which the EasyFit analysis method yields inaccurate results is with cultures of very low viability. If your cultures have less than 10% viable cells, EMD Millipore recommends that you perform manual ViaCount analysis. This appendix provides examples of where EasyFit analysis works as well as or better than manual analysis, and where manual analysis works better than EasyFit analysis. EMD Millipore recommends that you validate EasyFit for your particular cell lines before routinely using it, and after validation you should continue to monitor the dot plots and results, by comparing manual results to EasyFit results, for each sample to ensure that the analysis is correct.
EasyFit Case Study Examples A - 1

Use EasyFit Under These Circumstances
Following are examples of when EasyFit analysis is recommended, and would work as well as or better than manual analysis.
1. Use EasyFit When Viable and Apoptotic Cells Overlap in PM1 and PM2
Use EasyFit when it is difficult to determine where to place the viability marker because the viable cells and apoptotic/dead cells do not show a clean separation. With manual analysis there is no way to adjust the PM1 viability marker to completely separate the viable from the apoptotic cells. Because EasyFit analyzes the data using three parameters at once, it can separate the apoptotic cells from viable cells based on their differential FSC signals, as seen in the FSC vs Viability (PM1) dot plot.
apoptotic cells (black) overlap with viable cells (red)
dead cells apoptotic cells grouped with dead cells
A - 2 guava easyCyte HT System User's Guide

2. Use EasyFit When Debris is Adjacent to Viable Cell Population
Use EasyFit when debris appears directly to the left of the viable population in the FSC vs Viability (PM1) dot plot, and when you cannot move the FSC threshold to separate the viable cells from the debris without excluding some of the dead cells and hence overestimating the viability of the culture. The 3-dimensional algorithm can easily identify and separate out the debris.
debris
debris Moving the FSC threshold to the right would eliminate dead cells from the analysis.
EasyFit Case Study Examples A - 3

3. Use EasyFit With Low PM2 Marker Settings
EasyFit works as well as manual analysis when the PM2 threshold is set too low, allowing a large amount of debris to be acquired. The populations are still distinct and well defined.
EasyFit and manual results are comparable.
4. Use EasyFit When Incomplete Staining Occurs
EasyFit works as well as manual analysis when two viable cell populations appear based on PM2. This staining pattern may appear if an insufficient amount of ViaCount Reagent is used. Some cultures require a higher concentration of PM2 dye to adequately stain all viable cells. While there are two viable populations based on PM2, there is only one based on PM1 and FSC.
EasyFit and manual results are comparable.
A - 4 guava easyCyte HT System User's Guide

Use Manual ViaCount Analysis Under These Circumstances
EasyFit is not recommended under general conditions where there are a predominant number of apoptotic cells located close to the viable cells based on FSC, or there is a very large amount of debris. EasyFit does not accurately determine the percent viability and the viable cells/mL if cultures contain <10% viable cells. EasyFit also does not work optimally if the instrument is not set up properly prior to sample acquisition. Following are specific examples of where manual analysis is preferred over EasyFit analysis.
1. Use Manual ViaCount Analysis With Only a Slight Shift in Apoptotic Cells
Use manual analysis with the apoptotic marker enabled, instead of EasyFit, if the apoptotic population is close to the viable population and EasyFit is counting the apoptotic cells as viable cells rather than dead.
EasyFit counts apoptotic cells as viable.
EasyFit counts apoptotic cells as viable.
EasyFit Case Study Examples A - 5

2. Use Manual ViaCount Analysis to Correctly Identify Apoptotic Cells
EasyFit may incorrectly identify apoptotic cells as debris. Apoptotic cells have slightly lower FSC intensity and slightly higher PM1 intensity than viable cells.
EasyFit counts apoptotic cells as debris.
EasyFit counts apoptotic cells as debris.
3. Use Manual ViaCount Analysis With a Large Amount of Apoptotic and Dead Cells
EasyFit does not work well when there is large amount of apoptotic and dead cells.

A - 6 guava easyCyte HT System User's Guide

EasyFit detects an erroneous viable population.

4. Use Manual ViaCount Analysis With Poor Resolution Between Dead Cells and Debris
EasyFit cannot distinguish between dead cells and debris in cultures with a large amount of debris. For samples with a large amount of debris where it may also be difficult to manually discriminate populations, you may want to use an alternate viability test method.
EasyFit Case Study Examples A - 7

5. Use Manual ViaCount Analysis When Large Amounts of Debris are Not Well Separated from Viable Cells
EasyFit may count some of the debris as viable cells if there is not a clear separation between debris and viable cells.

EasyFit counts debris as viable cells.
6. Use Manual ViaCount Analysis With Low Viability Cultures
If the percentage of viable cells is low (<10%), EasyFit overestimates the number of viable cells. The few apoptotic cells in this sample are counted as live instead of dead.

A - 8 guava easyCyte HT System User's Guide

EasyFit counts apoptotic cells as viable.
EasyFit counts apoptotic cells as viable.

7. Use Manual ViaCount Analysis With a High PM1 Voltage Setting
PM1 voltage is set too high. EasyFit is counting viable cells as dead cells. To prevent this, use a PM1 voltage setting that places the viable cells between 10e0 and 10e1.
PM1 voltage set too high. Viable cell population approaching PM1 positive.
8. Use Manual ViaCount Analysis With a Low FSC Gain Setting
EasyFit incorrectly identifies viable cells as debris when the FSC gain is too low. To prevent this, adjust the FSC gain to place the viable cells at approximately 10e3 on the FSC scale.
Small portion of viable cells counted as viable by EasyFit.
EasyFit Case Study Examples A - 9

9. Manual ViaCount Analysis May be More Reproducible
The following two screens show the replicate samples collected at different times. In the first sample (below) EasyFit incorrectly identifies the viable cells as dead. This was most likely because the PM1 voltage was not adjusted so that the viable cell population was placed between 10e0 and 10e1. However, even with the correct instrument settings, EasyFit can on occasion fail to yield the same results for replicate samples.

EasyFit incorrectly counts viable cells as dead cells.
The same sample as above, acquired a few minutes later. This time even though the PM1 mean fluorescence was still too high, EasyFit correctly identifies the viable cells.

A - 10 guava easyCyte HT System User's Guide

EasyFit correctly identifies viable cells.

Appendix B Administrator Features
Setting Up Access Control
guavaSoft Software, version 2.7 supports features which allow a laboratory administrator in controlled environments to restrict users from access to certain features of the guava easyCyte HT System in order to help ensure that standard procedures are followed correctly. Users whose access has been restricted cannot change instrument or analysis settings, and may only operate the guava easyCyte HT System according to previously saved Settings files or the instrument default settings.
Who Should Read This Section on Administrator Features
By default, after installation there are no access control restrictions, and the default "GTI" user account has access to all features of the software. If such unrestricted access is sufficient for your needs, then no further steps are necessary and you may begin using the software. You should read this section if: · you want to use access control in your laboratory or environment, or · you want to create new user accounts, or · you are a network administrator and need information about the guava environment in
order to create guava user accounts in a manner consistent with your local security policy EMD Millipore recommends that you contact your local network administrator for help in setting up user accounts and access control.
Administrator Features B - 1

Access Control Levels
guavaSoft Software, version 2.7 supports three levels of access control--Administrator, Supervisor, and Operator. Each user account under Windows has one of these levels, which is assigned by the lab administrator on a case-by-case basis. A higher access control level always has privileges of all access control levels below. Administrator - level user accounts have unrestricted access to all features of the software including the "Administration Configuration" on page B-9, and are assumed to be guavaSoft Software Administrators who know how to properly configure all features of the software for supervisor-level and operator-level users. Supervisor - level user accounts have unrestricted access to all features of the software except the "Administration Configuration" on page B-9, and are assumed to be expert users who know how to properly use all features of the software at the supervisor and operator levels. All user accounts can: · perform the Adjust Settings step · retrieve instrument settings files · start new data sets · run the guava easyCyte HT System and acquire data (entering all relevant information
such as sample IDs, number of events to acquire, and dilution factor and original volume, when applicable) · perform Quick Clean, Backflush, and Cleaning operations · run the easyCheck Procedure · abort an acquisition, when necessary · export data to FCS 2.0 or CSV format · add comments to event log · view event log file Operator - level user accounts cannot: · change instrument settings (FSC gain, PMT voltages, pump speed) · adjust markers or gates · make any adjustments during the Adjust Settings step · use Next Step, except to (a) finish Adjust Settings, or (b) terminate a normal acquisition · save instrument settings
B - 2 guava easyCyte HT System User's Guide

Before Setting Up Access Control
The guavaSoft Software, version 2.7 installer automatically creates the three different guava User Groups under Windows, namely, GuavaAdmin, GuavaSupervisor, and GuavaOperator. The correct access to the various guava files needed to function properly are also automatically set up by the installer.
IMPORTANT NOTE: If you plan to connect the laptop to a network, be sure to contact
your local network administrator for help, since the procedures described here may need to be modified in order to comply with security policies in effect for your local network. "First-Time Setup After Installation" describes steps which need to be taken only once, after installation of the software. It explains how to set up the guava Settings files folder access control. "How to Create A New User Account" describes how to create a new user account. "Assigning a guava Access Control Level to a User Account" describes how to assign the access control level (Administrator, Supervisor, or Operator) to a user account.
First-Time Setup After Installation
This section shows you after installation, the three User Groups, GuavaAdmin, GuavaSupervisor, and GuavaOperator are automatically created. The steps to set up the folder for the guava Setting Files are also described in this section. The GuavaAdmin group is used by guavaSoft Software to allow the guava Administrator to configure the "Administration Configuration" features. This option is available from the guavaSoft Software main menu to a guava Administrator only. The GuavaAdmin group consists of only those users who are to share responsibility for administering Access Control. All members of the GuavaAdmin group should also be a Windows Administrator. Only these users (or a Windows administrator) will be able to assign or change the access control levels for other users.
Three User Groups Automatically Created Upon Installation
1 Log onto the laptop as administrator. (No password is required by default.)
Administrator Features B - 3

2 Right-click My Computer and select Manage from the menu. The Computer Management window appears. Expand the content of the "Local Users and Groups" folder and click on the "Groups" folder.
Create the guavaSoft "guavaSettings" Folder
1 Double-click My Computer. Double-click Shared Documents. Create a new folder in the Shared Documents folder called guavaSettings.
B - 4 guava easyCyte HT System User's Guide

How to Create A New User Account
1 Log onto the laptop as administrator. 2 Right-click My Computer and select Manage from the menu. 3 Find Local Users and Groups and click to expand its contents. Click the Users folder.
4 Select New User from the Action menu in the menu bar at the top of the window. The New User dialog box appears.
Administrator Features B - 5

5 Enter a user name to be added to the system. Type in a full name (first and last), a password and confirmation, and a description. In the example below, a user account "User1" for "Joe Smith" in "R&D" is created.
6 Click Create. You may continue adding more users by repeating the steps starting with step 4. Click Close when you are finished adding users.
7 You will need to assign each user to the proper access control group. Proceed to "Assigning a guava Access Control Level to a User Account" for this information.
Assigning a guava Access Control Level to a User Account
This section shows you how to assign the Access Control level to a user account for guavaSoft Software. You do this by assigning the user to one of the groups created in "First-Time Setup After Installation" on page B-3. If you want the user to be able to administer Access Control for other users or to be able to configure the "Administration Configuration" feature (normally, very few users should have this right), add the user to the GuavaAdmin group as shown below. Also make sure that the user you have added to the GuavaAdmin group is also a Windows Administrator. In a similar manner, a user account can be assigned to have either Supervisor- or Operator-level access control simply by adding the user to either the GuavaSupervisor or GuavaOperator groups, respectively, as shown below. Be careful not to assign a user to more than one guava group. The higher Group privilege takes precedence, which may not be what you want. 1 Log onto the laptop as a Windows Administrator. 2 Right-click My Computer and select Manage from the menu. 3 Navigate to the Groups folder under "Local Users and Groups."
B - 6 guava easyCyte HT System User's Guide

How to Give a User Account GuavaAdmin-Level Access
1 Right-click on the GuavaAdmin group and select Properties. 2 Click Add in the GuavaAdmin Properties window.
The Select Users window appears.
3 Enter the user login name for the administrator and click OK. 4 Repeat these steps to add additional administrators.
NOTE: If a user in the GuavaAdmin group is NOT a Windows Administrator, you can
add the user to the Administrators group: · Right-click My Computer and select Manage from the menu. · Click the Groups folder under the "Local Users and Groups" folder. · Right-click on the "Administrators" group in the right side of the window and select
Add to Group from the menu. · Click Add in the Administrators Properties window. · Select the user you want to add to the Administrators group and click Add. · Click OK when you are finished.
How to Give a User Account GuavaSupervisor-Level Access
1 Right-click on the GuavaSupervisor group and select Properties. 2 Click Add in the GuavaSupervisor Properties window.
The Select Users window appears.
3 Enter the user login name for the supervisor and click OK. 4 Repeat these steps to add additional supervisors.
Administrator Features B - 7

How to Give a User Account GuavaOperator-Level Access
1 Right-click on the GuavaOperator group and select Properties. 2 Click Add in the GuavaOperator Properties window.
The Select Users window appears.
3 Enter the user login name for the operator and click OK. 4 Repeat these steps to add additional operators. 5 Reboot the laptop when finished.
Information For Network/IT Administrators
· User accounts which function as administrators for guava Access Control do not need to have Windows Administrator privileges, they only need full control of the AccessRights folder within the guavaSoft folder hierarchy.
· The GuavaSettings folder described in "First-Time Setup After Installation" on page B3 does not need to be in C: drive. It can be located anywhere as long as all users can access it. Although the setup procedures above do not detail how to do this, the Operator-level accounts do not need access to the GuavaSettings folder, since they cannot create Settings files. Therefore, you could obtain greater security by arranging that the GuavaOperator Group has only Read access to the GuavaSettings folder.
· All guavaSoft Software users need Read/Write/Modify access to the Log folder when running the easyCheck Procedure, since this assay updates the GuavaCheckLog.
B - 8 guava easyCyte HT System User's Guide

Administration Configuration
Administrators can configure, or customize, certain software features for supervisors and/ or operators. You must be logged in as an administrator to gain access to the Setup button on the guavaSoft Software main menu.
1 Click Setup from the main menu.

The Customize guavaSoft screen appears.

Available to administrators who log onto the system.

Administrator Features B - 9

2 Click Configure under Access Rights.
3 Click the check boxes for the features you wish to allow for supervisors and/or operators.
B - 10 guava easyCyte HT System User's Guide

The following table describes each feature.

Feature
Disable Append to Files
Disable Overwrite Files
Require easyCheck Fields
Require non-blank ViaCount Fields Include Full User Name on Printouts Include "Review By" Field on Printouts

Description
If selected, will not allow user to append to an existing FCS 3.0 file. Users may overwrite the existing file or create a new file. This applies to a data file when you click New Data Set at the start of a session. If overwriting is disabled (see below), you will be appending to a copy of the existing file since you cannot overwrite it. If overwriting is allowed, you will be appending to the end of the existing file.
If selected, will not allow users to overwrite an existing FCS 3.0 file. Users may append to the existing file or create a new file. This applies to a data file when you click New Data Set at the start of a session, as well as to a data file when you make changes during analysis.
If selected, the user must enter values for the Bead Lot #, Bead Expiration Date, and Expected Particles/mL before starting every easyCheck run. If this option is not selected, the information will default to the last information entered.
If selected, the user must enter values for the Reagent Lot # and Reagent Expiration Date before a ViaCount Assay can be started. If this option is not selected, the reagent information is not required.
If selected, the user's full name is included on all printouts generated by that user. This information is taken from the "Full Name" field in the user's Windows account record.
If selected, places a Reviewed by: __________ field on all printouts generated by the user.

4 Click OK to save the settings.

Administrator Features B - 11

B - 12 guava easyCyte HT System User's Guide

Appendix C Glossary

acquisition Analysed Group
analysis antibodies area caspases

The electronic and software function of collecting various types of information from a cell sample.
An FCS file created in InCyte software. It contains the sample data and the Analysis Method. When data is acquired in InCyte, the software will automatically pair the data set and Method for analysis. If data were acquired in any other guavaSoft module, you will need to pair the data with a new or existing Method during analysis to form the Analysed Group.
The software function of numerically and graphically manipulating data to identify and separate cell populations for the purpose of calculating relevant statistical information.
A class of proteins secreted by sensitized B lymphocytes following contact with an antigen. Also referred to as immunoglobulins. Monoclonal antibodies, derived from a unique secreting clone of the parent B cell, are characterized by their highly specific antigen binding capabilities.
The area under the electronic pulse. The area measurement provides a more accurate assessment of total signal fluorescence.
Cysteinyl-directed aspartate-specific proteases. A family of enzymes that initiate the apoptotic cascade, carry out cellular breakdown, and process cytokines.

Glossary C - 1

coefficient of variation (%CV) compensation data set depolarized cells
detector
dot plot FBS FCS file
flow cell fluorescence

The ratio of the standard deviation to the mean, expressed as a percent. It is calculated using the formula:
%CV = SD x 100 x
A process of reducing the unwanted fluorescence signal of one fluorochrome overlapping into the range of wavelengths of another fluorochrome.
A series of samples included within one file for a selected assay. A data file and an Excel file are saved for each data set.
Cells in which the mitochondrial membrane potential has collapsed. Because of this loss of negative potential, the JC-1 dye no longer accumulates in the mitochondria, causing cells to fluoresce mostly green.
A device used to measure light intensity. The side scatter detector (PM4) and the fluorescence detectors (PM1, PM2, PM3, and PM5) are photomultiplier tubes, and the FSC detector is a photodiode. Both output a current that is proportional to the intensity of incident light.
A graphical representation of two-parameter data. Each axis of the plot displays values for one parameter. A dot represents the values for a cell or particle.
Fetal bovine serum. A cell-free extraction of blood obtained from fetal calves used to supplement growth media in tissue culture.
Flow Cytometry Standard file. A data file containing the results for an individual sample as well as all acquisition information at the time of data collection. FCS files are defined by the Data Files Standards Committee of the Society for Analytical Cytology. Cytometry. 1990;11:323332.
A optical assembly within the guava easyCyte HT System where the laser beam illuminates the sample stream.
The phenomenon of light emission that occurs when a fluorochrome's excited electrons drop to a lower energy level.

C - 2 guava easyCyte HT System User's Guide

fluorochrome

A fluorescent dye used as a detection reagent in cell analysis applications. A molecule capable of absorbing light at a certain wavelength, then emitting light at a longer wavelength (fluorescence) as it releases energy. For a list of all fluorochromes compatible with the easyCyte HT System, see "Fluorochromes" on page 3 of the Specifications section.

FSC

Forward scatter. Light scattered as a particle passes in front of the laser beam. Forward scattered light is used as an indicator of relative particle size and incorporates both the particle's cross-sectional dimension and refractive index.

gate

A graphical boundary that defines a subset of data. Gates may be set on a single-parameter histogram or a two-parameter dot plot.

helper/inducer T cells T cells that promote the immune response by releasing soluble helper factors such as interleukin 2 and interleukin 4.

histogram

A graphical representation of single-parameter data. The horizontal axis of the graph represents the increasing signal intensity of the parameter and the vertical axis represents the number of events (cells).

isotype control

An antibody of the same immunoglobulin class and fluorescent capacity as the test reagent, but having no specificity for the target antigen or other antigens present on the test cells. The isotype control is used to estimate nonspecific binding of the test reagent.

laser

Light amplification by stimulated emission of radiation. A light source that is highly directional, monochromatic, coherent, and bright. The emitted light is in one or more narrow spectral bands, and is concentrated in an intense, narrow beam.

marker

A boundary or set of boundaries used to segregate data into subsets for statistical analysis. Set a marker on a histogram to obtain statistics on a certain region. Set quadrant markers on a dot plot to obtain statistics on data within four quadrants.

mean fluorescence

The average of the fluorescence intensities of each event acquired within a given set of events.

Glossary C - 3

median Method
monocytes NK cells offset parameter PM1 (YLW) PM2 (RED) PM3 (GRN) PM4 (SSC)

The axis value for the event that falls in the middle of the distribution.
The part of an InCyte FCS file that contains all the analysis components (gates, regions, markers, plots, parameters, and statistical setup). Methods can be part of the FCS file and can also be saved to a separate file (.gsy). Data files acquired using a program other than InCyte will not have Methods associated with them, therefore you must use a new or existing Method before you can analyze the file using InCyte.
Immature macrophages found in the blood.
Natural killer cells. Non-T, non-B lymphocytes found in normal individuals and capable of killing some tumor cells and some virus-infected cells.
A baseline detector setting for an individual assay to ensure that the cells are being detected.
A specific cell property that is measured as the cell passes in front of the laser beam. Each parameter is the output from a photomultiplier (which measures fluorescence or side scatter) or a photodiode (which measures forward scatter).
Photomultiplier 1. A device used for measuring light intensity. The PM1 in the guava easyCyte HT System can measure fluorescent light from PE, PI, Cy3, TRITC, sulforhodamine, DS Red, and AlexaFluor 532.
Photomultiplier 2. A device used for measuring light intensity. The PM2 in the guava easyCyte HT System can measure fluorescent light from PE-Cy5, PerCP, 7-AAD, PI, Cychrome, and PE-Cy5.5.
Photomultiplier 3. A device used for measuring light intensity. The PM3 in the guava easyCyte HT System can measure fluorescent light from FITC, GFP, and Alexa 488.
Photomultiplier 4. A device used for measuring light intensity. The PM4 in the guava easyCyte HT System can measure laser light scattered at a 90 degree angle to the laser beam.

C - 4 guava easyCyte HT System User's Guide

PM5 (NIR)

Photomultiplier 5. A device used for measuring light intensity. The PM5 in the guava easyCyte HT System can measure fluorescent light from PE-Cy7 or PE-AlexaFluor 750 from the blue laser, or can measure fluorescent light from APC-Cy7 from the red laser.

PM6 (RED2)

Photomultiplier 6. A device used for measuring light intensity. The PM6 in the guava easyCyte HT System can measure fluorescent light from APC or Cy5.

PM7 (NIR2)

Photomultiplier 7. A device used for measuring light intensity. The PM7 in the guava easyCyte HT System can measure fluorescent light from APC-Cy7.

PMNs

Polymorphonuclear cells. Myeloid cells that are derived from the bone marrow. These cells possess a lobulated, irregular nucleus and cytoplasm that is filled with granulocytes. PMNs consist of neutrophils, eosinophils, and basophils.

PMT

Photomultiplier tube. A device used for measuring light intensity.

polarized cells

Cells which exhibit a normal mitochondrial membrane potential, and hence when exposed to the JC-1 dye, fluoresce mostly orange.

population

A group of cells that express similar values within one or more parameters. For example, cells that are positive for a particular antibody appear in the same location within a histogram or dot plot.

SR-VAD-FMK

Sulforhodamine-valyl-alanyl-aspartyl-fluoromethylketone. A cell-permeable, noncytotoxic caspase inhibitor that covalently binds to multiple caspases that have been activated during apoptosis.

SSC

Side scatter. Light scattered as a particle passes in front of the laser beam. Side scattered light is measured at approximately 90° from the incident laser beam. Side scattered light is used as an indicator of a particle's relative internal granularity.

suppressor/cytotoxic T cells that suppress the response of other cells to antigen, or

T cells

kill other cells in an antigen-specific manner.

Glossary C - 5

T cells threshold width

Lymphocytes that have undergone a period of processing in the thymus and are responsible for mediating the cellmediated immune response.
The minimum level of discrimination to electronically eliminate unwanted signal. A threshold setting allows you to specify events you wish to acquire based on signal intensity of the event. Anything below the threshold in not acquired.
The width of the electronic pulse. The width measurement helps you discriminate doublets from singlets.

C - 6 guava easyCyte HT System User's Guide

Appendix D Order Information

For ordering information contact the nearest EMD Millipore office by calling 1 800 645-5476, or visiting us on our website at www.millipore.com/offices. In addition, EMD Millipore and its distribution network will provide guava® Products to all sectors of life science research in certain countries outside North America and Europe.

Instrument Components
Parts guava easyCyte 8HT System (software not included) laptop computer cleaning solution vial assembly (40 mL) waste vial assembly (40 mL) flow cell assembly flow cell removal/tightening tool (screw-in model) flow cell removal tool (tweezer model) syringe assembly cleaning tool guava easyCyte HT System User's Guide text instrument shipping box

Catalog Number 0500-4008 0110-3670 0110-5780 0110-5790 0500-2260 6000-2410 6000-3020 0110-0210 0110-5820 0110-5690

Software
guava easyCyte HT System Software Modules guava ExpressPro Software (required for 6-color operation) guava InCyte Software Module guavaSuite Software Modules for guava easyCyte HT Systems

Catalog Number 0500-4125 0500-4120 0500-4130

Essential Tools
Kit guava easyCheck Kit (50 tests) Guava ICF (Instrument Cleaning Fluid) [100 mL]

Catalog Number 4500-0025 4200-0140

Order Information D - 1

Reagent Kits
Cell Health ViaCount Assay Kits Guava ViaCount Reagent (100 tests) Guava ViaCount Reagent (600 tests) Guava ViaCount Flex Reagent (100 tests) Guava ViaCount Flex Reagent (500 tests) CDR (Cell Dispersal Reagent) [100 tests] Cell Cycle Kits FlowCellect® Bivariate Cell Cycle Kit for DNA Replication Analysis (25 tests) FlowCellect® Bivariate Cell Cycle Kit for G2/M Analysis (25 tests) Guava Cell Cycle Reagent (100 tests) DNA Damage Kits FlowCellect® Multi-Color DNA Damage Response Kit (25 tests) FlowCellect® DNA Damage Histone H2A.X Dual Detection Kit (25 tests) FlowCellect® Cell Cycle Checkpoint H2A.X DNA Damage Kit (25 tests) FlowCellect® Cell Cycle Checkpoint ATM DNA Damage Kit (25 tests) FlowCellect® Histone H2A.X Phosphorylation Assay Kit MitoHealth Kits FlowCellect® MitoPotential Red Kit (100 tests) FlowCellect® MitoDamage Kit (100 tests) FlowCellect® MitoLive Kit (100 tests) FlowCellect® MitoStress Kit (100 tests) FlowCellect® Cytochrome c Kit (100 tests) FlowCellect® Oxidative Stress Characterization Kit (25 tests) guava MitoPotential Kit (100 tests) Apoptosis Kits Early Apoptosis Kits FlowCellect® Annexin Red Kit (100 tests) guava Nexin Reagent (100 tests) guava Nexin Reagent (500 tests) Mid Apoptosis Kits guava MultiCaspase SR Kit (100 tests) guava Caspase 9 SR Kit (100 tests) guava MultiCaspase FAM Kit (100 tests) guava Caspase 3/7 FAM Kit (100 tests) guava Caspase 8 FAM Kit (100 tests) guava Caspase 9 FAM Kit (100 tests) guava MultiCaspase SR and Caspase 3/7 FAM Kit (100 tests) guava MultiCaspase SR and Caspase 8 FAM Kit (100 tests) guava MultiCaspase SR and Caspase 9 FAM Kit (100 tests) guava Caspase 9 SR and Caspase 3/7 FAM Kit (100 tests) guava Caspase 9 SR and Caspase 8 FAM Kit (100 tests) guava Caspase 9 SR and MultiCaspase FAM Kit (100 tests)

D - 2

guava easyCyte HT System User's Guide

Catalog Number
4000-0040 4000-0041 4500-0110 4700-0060 4700-0050
FCCH025102 FCCH025103 4500-0220
FCCH025104 FCCS025153 FCCH025142 FCCH025143 FCCS100182
FCCH100105 FCCH100106 FCCH100107 FCCH100109 FCCH100110 FCCH025111 4500-0250
FCCH100108 4500-0450 4500-0455
4500-0500 4500-0520 4500-0530 4500-0540 4500-0550 4500-0560 4500-0570 4500-0580 4500-0590 4500-0630 4500-0640 4500-0650

Cell Health
Late Apoptosis Kits
guava TUNEL Kit (100 tests)
Apoptosis Signaling Kits FlowCellect® Bcl-2 Activation Dual Detection Kit (25 tests)
Autophagy FlowCellect® GFP-LC3 Reporter Autophagy Assay Kit (CHO) [25 tests] FlowCellect® Autophagy Reagent Pack (25 tests) FlowCellect® GFP-LC3 Reporter Autophagy Assay Kit (U20S) [25 tests] FlowCellect® RFP-LC3 Reporter Autophagy Assay Kit (25 tests) FlowCellect® Autophagy LC3 Antibody-based Assay Kit (100 tests)
Immunology
Intracellular Cytokine Kits
Helper T Cell Kits Mouse FlowCellect® Mouse Th1 Intracellular Cytokine Kit (25 tests) FlowCellect® Mouse Th2 Intracellular Cytokine Kit (25 tests) FlowCellect® Mouse Th17 Intracellular Cytokine Kit (25 tests) FlowCellect® Mouse Th1/Th2 Intracellular Cytokine Kit (25 tests) FlowCellect® Mouse Th1/Th17 Intracellular Cytokine Kit (25 tests) FlowCellect® Mouse Th1 Differentiation Tool Kit (25 tests) FlowCellect® Mouse Th2 Differentiation Tool Kit (25 tests) FlowCellect® Mouse Th17 Differentiation Tool Kit (25 tests) FlowCellect® Mouse Treg Differentiation Tool Kit (25 tests)
T-Cell Kits Human FlowCellect® Human FOXP3 Treg Characterization Kit (25 tests) FlowCellect® Human CD4/CD8 T Cell Kit (100 tests)
T-Cell Kits Mouse FlowCellect® Mouse FOXP3 Treg Identification Kit (25 tests) FlowCellect® Mouse Viable Treg Characterization Kit (25 tests)
B-Cell Identification Kits Human FlowCellect® Human Memory B Cell Identification Kit (25 tests) FlowCellect® Human B Cell FAS Kit (100 tests)
B-Cell Identification Kits Mouse FlowCellect® Mouse Breg Identification Kit (25 tests)
T-Cell Signaling Kit Human FlowCellect® Human Lymphocyte ZAP-70 Characterization Kit (25 tests)
Immune Cell Health - Human FlowCellect® Human T Cell Apoptosis Kit (100 tests) FlowCellect® T Cell MitoDamage Kit (100 tests) FlowCellect® T Cell Activation Kit (100 tests) FlowCellect® Human CD8 T Cell FAS Kit (100 tests) FlowCellect® Human CD4 T Cell FAS Kit (100 tests) FlowCellect® Human T Cell Caspase 3/7 Kit (100 tests) FlowCellect® Human T Cell Caspase 8 Kit (100 tests)

Catalog Number
4500-0121
FCCS025108
FCCH100170 FCCF200097 FCCH100181 FCCH100183 FCCH100171
Catalog Number
FCIM025123 FCIM025124 FCIM025125 FCIM025137 FCIM025138 FCIM025161 FCIM025162 FCIM025163 FCIM025166
FCIM025118 FCIM100158
FCIM025126 FCIM025168
FCIM025159 FCCH100137
FCIM025154
FCIM025122
FCCH100138 FCCH100139 FCCH100141 FCCH100140 FCCH100154 FCCH100157 FCCH100155
Order Information D - 3

Immunology FlowCellect® Human T Cell Caspase 9 Kit (100 tests) guava CellToxicity Kit (100 tests) guava CellGrowth Kit (200 tests)

Catalog Number FCCH100156
4500-0230 4500-0270

Cell Signalling
MAPK Pathway FlowCellect® PI3K/MAPK Dual Pathway Activation and Cancer Marker Detection Kit (25 tests) FlowCellect® EGFR/MAPK Pathway Activation Detection Kit (25 tests) FlowCellect® MAPK Activation Dual Detection Kit (25 tests) FlowCellect® p38 Stress Pathway Activation Detection Kit (25 tests)
EGFR Pathway FlowCellect® EGFR/MAPK Pathway Activation Detection Kit (25 tests) FlowCellect® EGFR/RTK Activation Dual Detection Kit (25 tests) FlowCellect® EGFR/STAT3 Pathway Activation Detection Kit (25 tests)
PI3/Akt/m-TOR Pathway
FlowCellect® PI3K/MAPK Dual Pathway Activation and Cancer Marker Detection Kit (25 tests)
FlowCellect® PI3K Activation Dual Detection Kit (25 tests)
FlowCellect® PI3K-mTOR Signaling Cascade Kit (25 tests)
Jak/STAT Pathway FlowCellect® EGFR/STAT3 Pathway Activation Detection Kit (25 tests)
FlowCellect® Multi-STAT Activation Profiling Kit (25 tests)
FlowCellect® STAT1 Activation Dual Detection Kit (25 tests) FlowCellect® STAT3 Activation Dual Detection Kit (25 tests)
Multiple Pathway FlowCellect® PLC-gamma 1 Activation Dual Detection Kit (25 tests) FlowCellect® Src Activation Dual Detection Kit (25 tests)
Apoptosis Signaling Pathway FlowCellect® Bcl-2 Activation Dual Detection Kit (25 tests)
Chemokine Receptor Kits FlowCellect® Chemokine Receptor CCR1 Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CCR2B Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CCR3 Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CCR4 Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CCR6 Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CCR7 Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CXCR1 Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CXCR2 Surface Expression Identification and Quantification Kit (25 tests)

Catalog Number
FCCS025100 FCCS025101 FCCS025106 FCCS025132
FCCS025101 FCCS025107 FCCS025111
FCCS025100 FCCS025105 FCCS025210
FCCS025111 FCCS025550 FCCS025142 FCCS025143
FCCS025145 FCCS025154
FCCS025108
FCCR100410
FCCR200411
FCCR300412
FCCR400413
FCCR600414
FCCR700415
FCXR100420
FCXR200421

D - 4

guava easyCyte HT System User's Guide

Cell Signalling FlowCellect® Chemokine Receptor CXCR3 Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CXCR4 Surface Expression Identification and Quantification Kit (25 tests) FlowCellect® Chemokine Receptor CXCR6 Surface Expression Identification and Quantification Kit (25 tests)
Stem Cell Kits
Human FlowCellect® Human ESC Nuclear Marker Characterization Kit (25 tests) FlowCellect® Human ESC (HESCA-1) Surface Marker Characterization Kit (25 tests) FlowCellect® Human ESC (TRA-1-60) Surface Marker Characterization Kit (25 tests) FlowCellect® Human NK Cell Characterization Kit (25 tests)
Mouse FlowCellect® Mouse ESC Nuclear Marker Characterization Kit (25 tests)
Rodent FlowCellect® Rodent NSC Characterization Kit (Neural) [25 tests] FlowCellect® Rodent NSC Characterization Kit (Astrocyte) [25 tests]

Catalog Number FCXR300422 FCXR400423 FCXR600424
FCHEC25102 FCHEC25104 FCHEC25106 FCIM025164
FCMEC25110
FCRNC25112 FCRNC25114

Antibody Quantification Guava RapidQuant Human IgG Kit (100 tests) Guava RapidQuant Mouse IgG Kit (100 tests)
Service Plans
Service and Training Guava easyCyte 8HT Base System 1-yr Service Plan (at time of purchase) Guava easyCyte 8HT Base System 1-yr Service Plan (after purchase) Guava easyCyte 8HT Base System 2-yr Service Plan Guava easyCyte Installation and Training (included at no charge with purchase of system) Guava Introductory On-Site Training, half day (up to three trainees) Guava Advanced On-Site Training, full day (up to three trainees) Guava Instrument Relocation and Installation Service

Catalog Number 4500-0340 4500-0350
Catalog Number 0500-2870 0500-2875 0500-2880 0500-0450 0500-1690 0500-1680 0500-1710

Order Information D - 5

Compatible Microplates
Following is a list of microplates compatible with the guava easyCyte HT System. Plates are listed by type and materialpolystyrene (PS), polypropylene (PP), or flexible vinyl (PVC). While PP and PVC plates are mechanically compatible with the guava easyCyte HT System, EMD Millipore strongly recommends using PS plates whenever possible. PP and PVC plates are flexible and the distortions can affect the assay results.

96-Well Plate Type Manufacturer Round-bottomPS BD Falcon
Corning-Costar

Nunc

Round-bottomPP

Greiner BD Falcon Corning-Costar

Nalge-Nunc

C-bottomPS (well strips)

Nalge-Nunc

Catalog Number
353076 353077 353910 (guava 1000-3020) 353918 353227 351177 351190
3360 3799 3879 3358 3360 3799 3367 3788 3795 3798 7007
262162 268152 260210 268200
650101
351190
3356 3359 3365 3371
267245 267334 267342 267350 267369 267385 267407

Tissue Culture

473709

Treatment

None

Other

-hydrogel

-Maxisorp

D - 6

guava easyCyte HT System User's Guide

96-Well Plate Type Manufacturer

V-bottomPS

Corning-Costar

V-bottomPP removable
V-bottomPVC
Flat-bottomPS

Greiner
E&K Scientific Corning-Costar BD Falcon

Thermo Electron Greiner

Catalog Number
3894 3896 3897 3898 651161

Tissue Culture

99230

2897

352072

353070

353075

353872

353936

354407

356407

354429

354461

356461

354516

356516

354607

356698

356690

354689

356689

354409

354410

354670

354596

354657

354649

356649

354640

356640

356700

351172

353228

353915

353937

353219

353279

9205

655180

Treatment

None

Other

Order Information D - 7

96-Well Plate Type Manufacturer

Flat-bottomPS (cont.)

Corning-Costar

Nalge-Nunc

(well strips)

Corning-Costar

Flat bottomPVC

Nalge-Nunc Corning-Costar

Catalog Number
3300 3585 3594 3595 3596 3598 3599 3628 3665 3997 3591 9017 3361 9018 3590 3474
269620 269787 260836 260844 260887 260895 256510 439454 442404 475094
2388 2504 2508 2510 2592 2593
467466
2595

Tissue Culture

Treatment

None

Other

-hydrogel

-Maxisorp

D - 8

guava easyCyte HT System User's Guide

EMD Millipore plates, in any filter thickness and with the following prefixes are also compatible:

· MABV · MADV · MAGV · MAHV

· MSDV · MSDV · MSGV · MSHV

NOTE: The EMD Millipore plate with the MAMI prefix, in any filter thickness, is
compatible only if the middle 96-well plastic insert is removed before use on the guava easyCyte HT System.
NOTE: Other EMD Millipore plates may be compatible. Contact EMD Millipore
Technical Support for information. The manufacturer's website may have helpful information when comparing plates against known compatible plates.

Incompatible Microplates
Following is a list of microplates not compatible with the guava easyCyte HT System.

96-Well Plate Type Round-bottom

Manufacturer Thermo Electron

Nalge-Nunc

(well strip) V-bottom

Nalge-Nunc Thermo Electron Nalge-Nunc

Flat-bottom (half area)

Corning-Costar

PCR tube

Nalge-Nunc

Catalog Number
2205 0151
262146 262180
464394
2605
249662 249570 442587

polystyrene polypropylene
polystyrene polystyrene
polystyrene
polystyrene
polystyrene polystyrene polypropylene

Material

3686 3690 3694 3695 3696 3697
251357

polystyrene polystyrene polystyrene polystyrene polystyrene polystyrene
polypropylene (strip)

Order Information D - 9

Microcentrifuge Tubes
Following is a list of microcentrifuge tubes compatible with the guava easyCyte HT System.

Microcentrifuge Tubes
0.5-mL microcentrifuge tubes (free-standing with screw cap) - used for samples - dead volume of ~75 µL
1.5-mL microcentrifuge tubes (conical bottom, no screw cap)
1.5-mL microcentrifuge tubes (conical bottom, screw cap) 1.5-mL microcentrifuge tubes (round bottom, screw cap)
- used for cleaning and when washing the capillary and mixer
screw caps

Catalog Number VWR 16466-036 (guava 1000-2990)
VWR 16466-030 (guava 1000-0780) VWR 89004-288 VWR 60872-324
VWR 89004-346

NOTE: Snap-cap tubes can be used in place of the 1.5-mL screw-cap tubes (for
washing and cleaning) if the caps are cut off.

Microplate Minimum Assay Volumes
Dead Volumes:

round-bottom plate flat-bottom plate V-bottom plate

~50 µL ~75 µL ~25 µL

Assay Volumes: dead volume + 50 µL (at 200 cells/µL)

D - 10 guava easyCyte HT System User's Guide

Specifications

guava easyCyte HT System

Operating Environment temperature: humidity: power: fuse rating:
easyCyte HT System size height: width: depth:
easyCyte HT System weight: laptop size
height: width: depth: laptop weight:

16°35°C (60°95°F) 1090% relative humidity (non-condensing) 100240 VAC, 50/60 Hz, 120W USA and Japan: 2 A, 110 VAC Slo-blo (Time Lag) type Europe: 1.6 A, 220 VAC Time Lag type
10 in (25 cm) 20 in (51 cm) 24 in (61 cm) 73 lb (32.4 kg)
11.5 in (29.2 cm) when open 14.2 in (36.1 cm) 10.4 in (26.3 cm) 8 lbs (3.6 kg)

Optics laser:

see "easyCyte HT Lasers and Parameters" below

forward scatter detector: side scatter detector: fluorescence detectors: Signal Processing parameter dynamic range:
pulse processing: time: Performance counting accuracy: counting precision:

photodiode photodiode or photomultiplier see "easyCyte HT Lasers and Parameters" below
3.5 decades (for all modules except as noted below): 4.0 decades (guava ExpressPro, RapidQuant, and
Caspase software modules) 5.0 decades (guava InCyte software module) digital signal processing every particle time stamped
±10% 10% CV

Specifications

Fluidics flow cell dimension: pump: sample flow rate:
waste and cleaning vials: waste generation: dead volume: sample concentration:
sample requirement:
Data Management computer:
data file structure:

standard square capillary with ID of 100 µm positive displacement 7 µL/min to 36 µL/min (7 µL/min to 72 µL/min for guava
InCyte , ExpressPro, RapidQuant, and Caspase Software Modules) 30-mL glass vial with screw top typically <40 mL in 8 hours of continuous use 50 µL (for 96-well microplate); 75 µL (for 0.5-mL microcentrifuge tubes) final particle concentration of 104 to 5 x 105 particles/mL for accurate results (up to 2.5 x 106 beads/mL for the RapidQuant Assay) as few as 2,000 cells/test; typically 25,000-100,000 cells/ test, depending on the assay
DellTM laptop running Windows XP Professional or Windows 7 Ultimate, and including Microsoft Excel. Minimum specifications: Intel Core Duo processor T2400 (1.86 GHz), 4 GB RAM, 60 GB hard drive, 2 USB ports
Output data file formats:
· binary data storage in Flow Cytometry Standard (FCS) 3.0 format
· spreadsheet results file in comma-separated value (CSV) format
· optional export of binary data in FCS 2.0 format

easyCyte HT Lasers and Parameters

Laser/Parameter

easyCyte 5HT easyCyte 6HT easyCyte 6HT-2L easyCyte 8HT

488 mW (blue) laser power

20 mW

40 mW

75 mW

Blue modulated

Yes

640 mW (red) laser power

N/A

40 mW

FSC

Yes

SSC

Yes

Green

525/30

Yellow

583/26

Red

680/30

690/50

NIR

N/A

785/70

N/A

785/70

Red 2

N/A

661/19

NIR 2

N/A

785/70

guava easyCyte HT System User's Guide

Fluorochromes
The following tables, list all fluorochromes that can be used with the easyCyte HT system, the laser that excites the dye, and the parameter/detector that detects the emitted signal.

Fluorescent Labels
DNA or RNA Selective Dyes Reporter Proteins pH Probes Ca++ Probes

Max Emission (nm)

Alexa® 555 Alexa® 568 Alexa Fluor® 488 Alexa Fluor® 647 APC APC-Alexa Fluor® 750 APC-Cy7 CFTM 488 CFTM 555 CFTM 568 CFTM 647 CyTM2 Cy5 FAM FITC PE-Alexa Fluor® 750 PE-Alexa Fluor® 647 PE-Alexa Fluor® 700 PE-B, PE-R PE-Cy5 PE-Cy5.5 PE-Cy7 PE-Texas Red PerCP PerCP-Cy5.5 Qdot 525 Qdot 565 Qdot 655 Qdot 705 Qdot 800 Rhodamine 110 Sulforhodamine TRITC 7-AAD (DNA) Acridine Orange (DNA) Acridine Orange (RNA) DRAQ 5 (DNA) dsRED EGFP EYFP BCECF Carboxy SNARF®-1 Fluo-3, Fluo-4 Fura RedTM

519 668 660 774 774
506 666 519 519 775 668 719 578 670 692 774 613 675 690 525 565 655 705 800 520 595 572 647 526 / 650 526 / 650 670 583 516 532 535 589 527 669

Green (525/30 nm)
x
x
x x x
x
x
x
x x x x x x

Blue Laser (488-nm excitation)

Yellow (583/26 nm)
x x

Red (680/30 nm)* (690/50 nm)**

x x

x x x x x

x x
x x
x x x

NIR (785/70 nm)
x x x

Red Laser (640-nm excitation)

Red2

NIR2

(661/19 nm) (785/70 nm)

x x
x x
x x

x x
x x x

Specifications

Nonselective Nucleic Acid Dyes
Membrane Potential
Miscellaneous

Ethidium bromide (EB) Ethidium homodimer LDS-751 Propidium iodide (PI) SYBR® Gold SYBR Green SYTO® BC SYTOX® Green SYTOX Orange SYTOX Red TO-PRO®-1 TO-PRO-3 Thiazole Orange TOTO-3 YO-PRO®-1 YOYO®-1 DiIC1 (5) DiOC6 (3) JC-1 MitoSense Red Rhodamine 123 TMRE TRMR BODIPY®-FL BODIPY 650/665 Calcien CFSE Nile Red Oregon Green®

Max Emission (nm)
605 617 712 617 537 520 500 523 570 660 530 660 530 660 515 509 658 501 529 / 590 658 529 574 573 511 665 515 517 638 525

Green (525/30 nm)
x x x x
x x x x x x
x x x x

Blue Laser (488-nm excitation)

Yellow (583/26 nm)
x x
x x x

Red (680/30 nm)* (690/50 nm)**
x x x x

x x

x
x x

NIR (785/70 nm)

Red Laser (640-nm excitation)

Red2

NIR2

(661/19 nm) (785/70 nm)

x x x x

x x x

* Bandpass filter for easyCyte 5HT and easyCyte 6HT ** Bandpass filter for easyCyte 6HT-2L and easyCyte 8HT

guava easyCyte HT System User's Guide

Compliance
The guava easyCyte HT System contains a Class IIIb laser operating at 488 nm in CW mode and a Class IIIb laser operating at 640 nm in CW mode. Light shields within the instrument enclose the path of laser radiation. Additionally, the instrument enclosure provides secondary protection from any laser radiation. This product complies with: · CFR (Code of Federal Regulations) Chapter 1, Subchapter J and installation
(overvoltage) category II · Class 1 limits for exposure to laser radiation set by the Center for Devices and
Radiologic Health (CDRH)
Symbols
Attention, consult accompanying documents
Affixed in accordance with European Council Directive 73/23/EEC
Danger, laser radiation
In accordance with Canadian Standards Association
C US
Separate collection of waste at end of life as required by European Directives. Dispose of in accordance with the applicable country regulation.
Dangerous voltage
Power on
Power off

Specifications

Warranty
EMD Millipore Corporation ("Millipore") warrants its products will meet their applicable published specifications when used in accordance with their applicable instructions for a period of one year from shipment of the products. MILLIPORE MAKES NO OTHER WARRANTY, EXPRESSED OR IMPLIED. THERE IS NO WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. The warranty provided herein and the data, specifications, and descriptions of Millipore products appearing in Millipore's published catalogues and product literature may not be altered except by express written agreement signed by an officer of Millipore. Representations, oral or written, which are inconsistent with this warranty or such publications are not authorized, and if given, should not be relied upon.
In the event of a breach of the foregoing warranty, Millipore's sole obligation shall be to repair or replace, at its option, the applicable product or part thereof, provided the customer notifies Millipore promptly of any such breach. If after exercising reasonable efforts, Millipore is unable to repair or replace the product or part, then Millipore shall refund to the Company all monies paid for such applicable Product. MILLIPORE SHALL NOT BE LIABLE FOR CONSEQUENTIAL, INCIDENTAL, SPECIAL, OR ANY OTHER DAMAGES RESULTING FROM ECONOMIC LOSS OR PROPERTY DAMAGE SUSTAINED BY ANY COMPANY CUSTOMER FROM THE USE OF ITS PRODUCTS.
© 2012 EMD Millipore Corporation. All rights reserved. No part of these works may be reproduced in any form without permission in writing.
Unless otherwise stated in our catalog or other company documentation accompanying the product(s), our products are intended for research use only and are not to be used for any other purpose, which includes but is not limited to, unauthorized commercial uses, in vitro diagnostic uses, ex vivo or in vivo therapeutic uses, or any type of consumption or application to humans or animals.

guava easyCyte HT System User's Guide

Manufacturer's Declaration of Conformity

We, EMD Millipore Corporation 25801 Industrial Blvd. Hayward, CA. 94545 U.S.A.

Declare under our sole responsibility that the product

Description:

Cell-based analysis system

Product Model: guava easyCyteTM HT System

Is in conformance with the following European Union directives. x 73/23/EEC x 89/336/EEC
European standards used: x Safety requirements for Electrical Equipment for measurement, Control, and Laboratory Use: EN61010-1:2002 x Safety of Laser Products: EN60825-1:2007 x Electrical Equipment for Measurement, Control and Laboratory Use-EMC Requirements- Part 1: General Requirements: EN61326-1:2005

Warren Hinds Operations Manager EMD Millipore Corporation

23 July 2012 Date

25801 Industrial Blvd., Hayward,CA. 94545 USA; 510-576-1400 (p); 510-576-1500(f) http://www.millipore.com

Specifications

guava easyCyte HT System User's Guide

Index

Numerics
7-AAD Caspase assay 9-1 CellToxicity assay 14-1 ExpressPlus assay 5-1 ExpressPro 8.1 assay 6-1 MitoPotential assay 11-1 Nexin assay 8-1
A
Abort button 1-14
Acquisition screen 1-13 to 1-15
adjusting settings
Caspase assay 9-5 to 9-7 Cell Cycle assay 12-4 to 12-5 CellGrowth assay 15-4 to 15-7 CellPaint assay 13-4 to 13-7 CellToxicity assay 14-4 to 14-6 ExpressPlus assay 5-4 to 5-6 ExpressPro 8.1 assay 6-5 to 6-7 InCyte assay 7-15 to 7-17 MitoPotential assay 11-4 to 11-5 Nexin assay 8-4 to 8-5 RapidQuant assay 16-6 to 16-8 TUNEL assay 10-4 to 10-5 ViaCount assay 4-4 to 4-6
analysis
Caspase 9-11 to 9-16 Cell Cycle 12-8 to 12-11 CellGrowth 15-9 to 15-13 CellPaint 13-9 to 13-12 CellToxicity 14-8 to 14-12 ExpressPlus 5-9 to 5-16 ExpressPro 8.1 6-11 to 6-16 InCyte 7-19 to 7-38 MitoPotential 11-7 to 11-11 Nexin 8-8 to 8-11 RapidQuant 16-10 to 16-13 TUNEL 10-8 to 10-11 ViaCount 4-9 to 4-13 Analysis screen 1-15 to 1-17
Annexin V reagent 8-1
apoptosis 8-1, 9-1, 10-1
Apply Current Settings to Selected Samples button 1-16
area, pulse measurement ExpressPro 8.1 6-1
InCyte 6-7, 7-15

assays
Guava Caspase 9-1 to 9-17 Guava Cell Cycle 12-1 to 12-11 Guava CellGrowth 15-1 to 15-13 Guava CellPaint 13-1 to 13-13 Guava CellToxicity 14-1 to 14-12 Guava ExpressPlus 5-1 to 5-16 Guava ExpressPro 8.1 6-1 to 6-22 Guava InCyte 7-1 to 7-49 Guava MitoPotential 11-1 to 11-12 Guava Nexin 8-1 to 8-12 Guava RapidQuant 16-1 to 16-16 Guava TUNEL 10-1 to 10-12 Guava ViaCount 4-1 to 4-14 Autosave FCS 2.0 files option 1-19, 1-25
B
Backflush button 1-14
backflushing fluid system 1-7, 3-2 backgating 6-20, 7-30
bleach solution
for backflushing 1-30, 3-2
for Guava Clean 3-5 for Quick Clean 3-1 for waste vial 3-7
BrdU 10-1
buttons Abort 1-14 acquisition 1-13 analysis 1-16 Apply Current Settings to Selected Samples 1-16
Backflush 1-14, 3-2
Clean & Rinse 1-14 Cleaning 1-9 easyCheck 1-9 Eject Tray 1-15 Export to FCS 2.0 1-16 Export to Spreadsheet 1-17 Load Tray 1-15 Next 1-14 Open Data Set 1-16 Pause 1-14
Print 1-17, 1-28, 1-32
Quick Clean 1-15 Resume 1-14 Settings 1-14 Start Worklist 1-14 Stop Worklist 1-14

C
capillary and mixer washing 1-25
Caspase assay 9-1 to 9-17
See also Guava Caspase
caspases 9-1
Cell Cycle assay 12-1 to 12-11
See also Guava Cell Cycle
CellGrowth assay 15-1 to 15-13
See also Guava CellGrowth
CellPaint assay 13-1 to 13-13
See also Guava CellPaint
cells
apoptotic 8-1, 9-1, 10-1 counting 4-1, 4-14
dividing 12-1 effector 14-1 hybridoma 13-1 target 14-1
CellToxicity assay 14-1 to 14-12
See also Guava CellToxicity
chromatin 10-1
Clean & Rinse 1-25, 1-29, 1-31
running 3-3
Clean & Rinse button 1-14
cleaning Clean & Rinse 3-3
flow cell 3-8 to 3-11 Guava Clean 3-4 to 3-5
outside of instrument 3-1 Quick Clean 3-1
solution 3-1, 3-5
cleaning solution vial 1-7 filling 3-6
clog 1-7, 3-11
comments, logging 1-16
compensation CellPaint 13-6
ExpressPlus 5-6 to 5-7 ExpressPro 8.1 6-8 to 6-9
InCyte 7-17 MitoPotential 11-6
computer, laptop 1-2 connecting to network 1-3
contour plots, InCyte 7-7
counting beads, easyCheck 2-4
cells, ViaCount 4-1, 4-14
gate, Caspase 9-9 gate, Cell Cycle 12-5
gate, CellGrowth 15-7, 15-10 gate, CellToxicity 14-6, 14-10 gate, ExpressPlus 5-7, 5-19

gate, ExpressPro 8.1 6-9, 6-25 gate, InCyte 7-5, 7-17
gate, RapidQuant 16-20 gate, ViaCount 4-6
D
data analysis
Caspase 9-11 to 9-16 Cell Cycle 12-8 to 12-11 CellGrowth 15-9 to 15-13 CellPaint 13-9 to 13-12 CellToxicity 14-8 to 14-12 ExpressPlus 5-9 to 5-16 ExpressPro 8.1 6-11 to 6-16 InCyte 7-19 to 7-38 MitoPotential 11-7 to 11-11 Nexin 8-8 to 8-11 RapidQuant 16-10 to 16-13 TUNEL 10-8 to 10-11 ViaCount 4-9 to 4-13
data set 1-16 deionized water
for Clean & Rinse 3-3 for Quick Clean 3-1 for washing capillary and mixer 1-30 dilution factor entered in WorkEdit software 1-31 ExpressPlus 5-19 ExpressPro 8.1 6-25 ViaCount 4-9
E
easyCheck 2-2 to 2-5
beads 2-2 event log 2-5 exporting results 2-6 logging comments 2-5 printing results 2-6 results 2-4 reviewing previous results 2-5
trend graph 2-6, 2-7
EasyFit 4-1 adjust settings 4-6
analysis 4-10 to 4-11 case study examples A-2 to A-10
errors 1-20
selecting in WorkEdit software 1-26, 1-31
Eject Tray button 1-15 errors/warnings (event log) 1-19
event log 1-16, 1-19
events to acquire 1-25 Caspase assay 9-20 Cell Cycle assay 12-13

guava easyCyte HT System User's Guide

CellGrowth assay 15-16 CellPaint assay 13-15 CellToxicity assay 14-14 ExpressPlus assay 5-19 ExpressPro 8.1 assay 6-25 InCyte assay 7-5 MitoPotential assay 11-14 Nexin assay 8-14 RapidQuant assay 16-20 TUNEL assay 10-13 ViaCount assay 4-16 Export to FCS 2.0 button 1-16 Export to Spreadsheet button 1-17 exporting Caspase results to FCS 2.0 file 9-18 Caspase results to spreadsheet file 9-18 Cell Cycle results to FCS 2.0 file 12-12 Cell Cycle results to spreadsheet file 12-12 CellGrowth results to FCS 2.0 file 15-15 CellGrowth results to spreadsheet file 15-15 CellPaint results to FCS 2.0 file 13-14 CellPaint results to spreadsheet file 13-13 CellToxicity results to FCS 2.0 file 14-13 CellToxicity results to spreadsheet file 14-13 easyCheck results to spreadsheet file 2-6 event log 1-20 ExpressPlus results to FCS 2.0 file 5-18 ExpressPlus results to spreadsheet file 5-17 ExpressPro 8.1 results to FCS 2.0 file 6-23 ExpressPro 8.1 results to spreadsheet file 6-23 InCyte results to spreadsheet file 7-39 MitoPotential results to FCS 2.0 file 11-13 MitoPotential results to spreadsheet file 11-13 Nexin results to FCS 2.0 file 8-13 Nexin results to spreadsheet file 8-12 RapidQuant results to FCS 2.0 file 16-18 RapidQuant results to spreadsheet file 16-18 RapidQuant standard curve to spreadsheet file
16-18 TUNEL results to FCS 2.0 file 10-12 TUNEL results to spreadsheet file 10-12 ViaCount results to FCS 2.0 file 4-15 ViaCount results to spreadsheet file 4-15 worklist to CSV file 1-26
ExpressPlus assay 5-1 to 5-16
See also Guava ExpressPlus
ExpressPro 8.1 assay 6-1 to 6-22
See also Guava ExpressPro 8.1
F
FCS 2.0 data file 1-19 FCS 3.0 data file 1-17

file name data set 1-17 instrument settings 1-21 spreadsheet 1-20
files appending 1-18 FCS 2.0 1-19 FCS 3.0 1-17 overwriting 1-18 settings 1-21 spreadsheet 1-20 WorkEdit (worklist) 1-21 WorkList Editor (worklist) 1-21
flow cell backflushing 3-2
cleaning 3-8 to 3-11
description 3-8
replacing 3-11 to 3-13
flow cytometry standard (FCS) file
export to 2.0 format 1-16, 1-19
fluid system 1-7 fuses, replacing 3-13
G
gate Caspase dot plot 9-13 Cell Cycle dot plot 12-9 CellGrowth, counting 15-10 CellPaint dot plot 13-10 CellToxicity, counting 14-10 ExpressPlus dot plot 5-11 ExpressPlus histogram 5-12
ExpressPro 8.1 6-18 to 6-19 InCyte 7-28 to 7-31
MitoPotential dot plot 11-9 Nexin dot plot 8-10 RapidQuant dot plot 16-12 TUNEL dot plot 10-9 ViaCount, counting 4-6
green fluorescent protein (GFP) 5-1, 6-1
Guava Caspase acquisition control panels 9-19 analysis gate 9-13
assay 9-1 to 9-17
compensation 9-8 counting gate 9-9 dot plot gate 9-13 exporting results to FCS 2.0 file 9-18 exporting results to spreadsheet file 9-18 logging comments 9-16 printing results 9-19 quadrant markers 9-15 results 9-16

threshold setting 9-6, 9-6
troubleshooting 9-21 viewing event log 9-16 Worklist Editor 9-3
Guava Cell Cycle acquisition control panels 12-13
assay 12-1 to 12-11
dot plot gate 12-9 exporting results to FCS 2.0 file 12-12 exporting results to spreadsheet file 12-12 histogram markers 12-10 logging comments 12-11 printing results 12-12 results 12-11 threshold setting 12-5 troubleshooting 12-14 viewing event log 12-11
Guava CellGrowth acquisition control panels 15-16
assay 15-1 to 15-13
counting gate 15-10 exporting results to FCS 2.0 file 15-15 exporting results to spreadsheet file 15-15 logging comments 15-13 printing results 15-15 quadrant markers 15-11 results 15-13 threshold setting 15-6 troubleshooting 15-17 viewing event log 15-13
Guava CellPaint acquisition control panels 13-15
assay 13-1 to 13-13
dot plot gate 13-10 exporting results to FCS 2.0 file 13-14 exporting results to spreadsheet file 13-13 logging comments 13-12 printing results 13-14 quadrant markers 13-11 results 13-13 threshold setting 13-6 troubleshooting 13-16 viewing event log 13-12
Guava CellToxicity acquisition control panels 14-14
assay 14-1 to 14-12
counting gate 14-10 exporting results to FCS 2.0 file 14-13 exporting results to spreadsheet file 14-13 logging comments 14-12 printing results 14-13 quadrant markers 14-11 results 14-12 threshold setting 14-6

troubleshooting 14-15, 17-31
viewing event log 14-12
Guava Clean 3-4 to 3-5
Guava easyCyte HT 1-1
cleaning 3-4 to 3-5 cleaning solution vial 1-7, 3-6
computer 1-2 flow cell 3-11 fluid system 1-7 instrument components 1-6 laser 1-7 power switch 1-6 sample tray 1-6
waste vial 1-7, 3-7 Guava Excel Utility 1-21, 4-21 to 4-22
Guava ExpressPlus acquisition control panels 5-19
assay 5-1 to 5-16
changing parameter names 5-20
compensation 5-6 to 5-7
dot plot gate 5-11 exporting results to FCS 2.0 file 5-18 exporting results to spreadsheet file 5-17
high concentration warning limits 1-26, 1-31
histogram gates 5-12 logging comments 5-16 markers 5-13 printing results 5-18 results 5-16 threshold setting 5-5 troubleshooting 5-21 viewing event log 5-16
Guava ExpressPro 8.1 acquisition control panels 6-25
assay 6-1 to 6-22
backgating 6-20 changing parameter names 6-26
compensation 6-8 to 6-9
exporting results to FCS 2.0 file 6-23 exporting results to spreadsheet file 6-23
gating 6-18 to 6-19
global regions 6-18
high concentration warning limits 1-26, 1-31
logging comments 6-16
markers 6-13 to 6-16 overlaying plots 6-19 to 6-20
printing results 6-23
pulse area 6-1, 6-7 pulse width 6-1, 6-7
results 6-20 troubleshooting 6-27 viewing event log 6-16
Worklist Editor 1-27, 6-3 Guava ICF 3-1, 3-5

guava easyCyte HT System User's Guide

Guava InCyte acquisition control panels 7-5 analysis methods 7-20
assay 7-1 to 7-49
changing parameter names 7-9 compensation 7-17 contour plots 7-7 creating groups 7-52 EC50 7-50 exporting results to spreadsheet file 7-39
gating 7-28 to 7-31
HeatMap 7-45 high concentration warning limits 1-26 overlaying plots 7-54 post-acquisition compensation 7-41 printing current run stats 7-34 printing group stats 7-38 pulse area 7-15 pulse width 7-15
regions 7-25 to 7-27
setting statistical thresholds 7-49
statistics 7-32 to 7-38
troubleshooting 7-57 Worklist Editor 7-12 workspace 7-10
Guava MitoPotential acquisition control panels 11-14
assay 11-1 to 11-12
dot plot gate 11-9 exporting results to FCS 2.0 file 11-13 exporting results to spreadsheet file 11-13 logging comments 11-11 markers 11-10 printing results 11-13 results 11-12 troubleshooting 11-15 viewing event log 11-11
Guava Nexin acquisition control panels 8-14
assay 8-1 to 8-12
dot plot gate 8-10 exporting results to FCS 2.0 file 8-13 exporting results to spreadsheet file 8-12 logging comments 8-11 printing results 8-13 quadrant markers 8-10 quadrant results 8-12 troubleshooting 8-15 viewing event log 8-11
Guava RapidQuant acquisition control panels 16-20
assay 16-1 to 16-16
changing parameter names 16-21 copying plot to clipboard 16-14

dot plot gate 16-12 exporting results to FCS 2.0 file 16-18 exporting results to spreadsheet file 16-18 exporting standard curve to spreadsheet file 16-
18 logging comments 16-13 overlaying plots 16-14
plate setup 16-2 to 16-4
printing results 16-18
results 16-15 to 16-17 troubleshooting 16-22, 17-35
viewing event log 16-13 Worklist Editor 16-4 Guava TUNEL acquisition control panels 10-13
assay 10-1 to 10-12
dot plot gate 10-9 exporting results to FCS 2.0 file 10-12 exporting results to spreadsheet file 10-12 histogram markers 10-10 logging comments 10-11 printing results 10-13 results 10-12 troubleshooting 10-14 viewing event log 10-11 Guava ViaCount acquisition control panels 4-16 apoptosis marker 4-13
assay 4-1 to 4-14 EasyFit analysis 4-10 to 4-11
exporting results to FCS 2.0 file 4-15 exporting results to spreadsheet file 4-15
Guava Excel Utility 4-21 to 4-22
logging comments 4-13 printing results 4-15 results 4-14 troubleshooting 4-17 viability marker 4-12 viewing event log 4-13
guavaSoft software 1-1, 1-8 acquisition buttons 1-13 to 1-15 Acquisition screen 1-13 to 1-15 analysis buttons 1-16 to 1-17 Analysis screen 1-15 to 1-17
assay registration 1-10
overview 1-8 to 1-17
quitting 2-10 starting 2-1 status bar 1-15
H
histogram markers Cell Cycle 12-10 CellGrowth 15-12
13

ExpressPlus 5-15 ExpressPro 6-14 TUNEL 10-10
I
InCyte assay 7-1 to 7-49 installing the system 1-2 to 1-3
instrument settings adjusting 1-14
retrieving 1-14, 1-22 saving 1-14, 1-22
See also adjusting settings
J
JC-1 11-1
L
laptop computer 1-2 connecting to network 1-3
laser 1-7 Load Tray button 1-15 loading samples
Caspase assay 9-4 Cell Cycle assay 12-3 CellGrowth assay 15-3 CellPaint assay 13-3 CellToxicity assay 14-3 Express assay 5-3 ExpressPro assay 6-4 InCyte assay 7-14 MitoPotential assay 11-3 Nexin assay 8-3 RapidQuant assay 16-5 TUNEL assay 10-3 ViaCount assay 4-3
M
marker Caspase quadrant 9-15 Cell Cycle histogram 12-10 CellGrowth quadrant 15-11 CellPaint quadrant 13-11 CellToxicity quadrant 14-11 ExpressPlus 5-13
ExpressPro 8.1 6-13 to 6-16
MitoPotential quadrant 11-10 MitoPotential viability 11-11 Nexin quadrant 8-10 TUNEL histogram 10-10 ViaCount apoptosis 4-13 ViaCount viability 4-12 markers overlapping, Cell Cycle 12-10

overlapping, ExpressPlus 5-15 overlapping, ExpressPro 8.1 6-17 microplates 1-6
compatible with easyCyte HT D-6 to D-8
minstac tubing 3-8
MitoPotential assay 11-1 to 11-12
See also Guava MitoPotential mixing samples 1-30
N
Nexin assay 8-1 to 8-12
See also Guava Nexin Next button 1-14
O
Open Data Set button 1-16
order information D-1 to D-5 overlaying plots 6-19 to 6-20, 7-54, 16-14
P
Pause button 1-14 phosphatidyl serine 8-1 plates 1-6
See also microplates Print button 1-17 print preview 1-17 printer 1-3 printing results
Caspase 9-19 Cell Cycle 12-12 CellGrowth 15-15 CellPaint 13-14 CellToxicity 14-13 easyCheck 2-6 ExpressPlus 5-18 ExpressPro 8.1 6-23
InCyte 7-34, 7-38
MitoPotential 11-13 Nexin 8-13 RapidQuant 16-18 TUNEL 10-13 ViaCount 4-15
propidium iodide 5-1, 6-1, 12-1, 15-1
Q
quadrant markers Caspase 9-15 CellGrowth 15-11 CellPaint 13-11 CellToxicity 14-11 ExpressPlus 5-13 ExpressPro 8.1 6-15

guava easyCyte HT System User's Guide

InCyte 7-33, 7-33
MitoPotential 11-10 Nexin 8-10 Quick Clean 3-1 Quick Clean button 1-15 quitting guavaSoft 2-10 WorkEdit 1-32
R
RapidQuant assay 16-1 to 16-16
See also Guava RapidQuant registering guavaSoft software 1-10 replacing
fuses 3-13
replacing flow cell 3-11 to 3-13
replicates 1-30 results
Caspase 9-16 Cell Cycle 12-11 CellGrowth 15-13 CellPaint 13-13 CellToxicity 14-12 easyCheck 2-4 ExpressPlus 5-16 ExpressPro 8.1 6-20 MitoPotential 11-12 Nexin 8-12
RapidQuant 16-15 to 16-17
TUNEL 10-12 ViaCount 4-14 Resume button 1-14 retrieving instrument settings 1-22 running Clean & Rinse 3-3
easyCheck 2-2 to 2-5 Guava Clean 3-4 to 3-5
Quick Clean 3-1 replicates 1-30
S
sample ID Caspase assay 9-20 Cell Cycle assay 12-13 CellGrowth assay 15-16 CellPaint assay 13-15 CellToxicity assay 14-14 ExpressPlus assay 5-19 ExpressPro 8.1 assay 6-25 InCyte assay 7-5 MitoPotential assay 11-14 Nexin assay 8-14 RapidQuant assay 16-20

TUNEL assay 10-13 ViaCount assay 4-16 sample number Caspase assay 9-20 Cell Cycle assay 12-13 CellGrowth assay 15-16 CellPaint assay 13-15 CellToxicity assay 14-14 ExpressPlus assay 5-19 ExpressPro 8.1 assay 6-25 for appended files 1-18 InCyte assay 7-5 MitoPotential assay 11-14 Nexin assay 8-14 RapidQuant assay 16-20 TUNEL assay 10-13 ViaCount assay 4-16 sample tray 1-6 See also loading samples saving instrument settings 1-22
worklist files 1-28, 1-32
Settings button 1-14 settings files 1-21 shutting down system 2-10 software
guavaSoft 1-1, 1-8 third-party cell cycle analysis 12-1, 12-11
third-party spreadsheet 1-20
WorkEdit 1-23 to 1-33
spreadsheet file 1-20 SR-VAD-FMK reagent 9-1 Start Worklist button 1-14 starting
Guava Excel Utility 4-22 guavaSoft software 2-1 new data set 1-17 system 2-1 WorkEdit software 1-29 WorkList Editor software 1-27 Stop Worklist button 1-14 system components 1-2 shutdown 2-10 startup 2-1
T
threshold setting Caspase 9-6 Caspase assay 9-6 Cell Cycle assay 12-5 CellGrowth assay 15-5 CellPaint assay 13-5
15

CellToxicity assay 14-5 ExpressPlus assay 5-5 ExpressPro assay 6-6 InCyte assay 7-16 MitoPotential assay 11-5 Nexin assay 8-5 RapidQuant assay 16-7 TUNEL assay 10-5 ViaCount assay 4-5 tray See sample tray troubleshooting Caspase 9-21 Cell Cycle 12-14 CellGrowth 15-17 CellPaint 13-16
CellToxicity 14-15, 17-31
ExpressPlus 5-21 ExpressPro 8.1 6-27 MitoPotential 11-15 Nexin 8-15
RapidQuant 16-22, 17-35
TUNEL 10-14 ViaCount 4-17 tubes D-10 for washing capillary and mixer 1-30 sample 1-6 tubing minstac 3-8
TUNEL assay 10-1 to 10-12
See also Guava TUNEL
V
viability 4-1
ViaCount assay 4-1 to 4-14
See also Guava ViaCount
W
warnings/errors (event log) 1-19 washing
capillary 1-30 mixer 1-30 waste vial 1-7 emptying 3-7
width, pulse measurement 6-1, 6-7, 7-15
WorkEdit files 1-21
software 1-23 to 1-33
worklist
creating 1-29 to 1-32
exporting to CSV file 1-26 files 1-21

Worklist Editor 1-27 Caspase 9-3 ExpressPro 8.1 6-3 files 1-21 InCyte 7-12 RapidQuant 16-4

guava easyCyte HT System User's Guide

For ordering information or technical support, call toll-free in the USA and Canada, Phone: +1 (800) 645-5476 Fax: +1 (951) 676-9209
For additional contact information, visit www.millipore.com
25801 Industrial Blvd. Hayward, CA 94545-2991

0110-5820 Rev G 11/13

Acrobat Distiller 10.1.8 (Windows)