The RNA Library Prep AmpliSeq for Illumina Transcriptome Human Gene Expression Panel is part of the AmpliSeq for Illumina Transcriptome Human Gene Expression Panel protocols which include the following functionality:
Preconfigured AmpliSeq for Illumina Transcriptome Human Gene Expression Panel protocol that supports the preparation of up to 96 uniquely indexed libraries of total RNA using the AmpliSeq for Illumina workflow.
Automated calculation of sample and buffer volumes. Automated calculation or display of reagents at every step in the protocol.
Automatic step transition when required.
Automatic placement of samples when necessary.
Automated assignment of QC Pass/Fail, based on user-selected threshold values.
There is no extraction protocol in this workflow because the samples are already extracted.
Protocol Type = Library Prep
Next Steps Configuration
Master Step Name = Dilute RNA (AmpliSeq for Illumina v1.1)
Step Type = Standard
Derived Sample Generation = Fixed, 1
Naming Convention = {InputItemName}
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Sample Table (Column Headers)
Step Data (Master Step Fields)
Master Step Name = Qubit (AmpliSeq for Illumina v1.1)
Step Type = Standard QC
Measurement Generation = Fixed, 1
Naming Convention = {InputItemName}
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Sample Table (Column Headers)
Step Data (Master Step Fields)
Master Step Name = Dilute RNA (AmpliSeq for Illumina v1.1)
Step Type = Standard
Derived Sample Generation = Fixed, 1
Naming Convention = {InputItemName}
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Sample Table (Column Headers)
Step Data (Master Step Fields)
Master Step Name = Reverse Transcribe RNA (AmpliSeq for Illumina v1.1)
Step Type = Standard
Derived Sample Generation = Fixed, 1
Naming Convention = {InputItemName}
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Sample Table (Column Headers)
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Placement Pattern = Column
Group of Defaults
Step Data
Group of Defaults = Transcriptome HGx
Master Step Fields
Master Step Name = Amplify cDNA Targets Standard (AmpliSeq for Illumina v1.1)
Step Type = Standard
Derived Sample Generation = Fixed, 1
Naming Convention = {InputItemName}
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Sample Table (Column Headers)
Step Data (Master Step Fields)
Master Step Name = Partially Digested Amplicons (AmpliSeq for Illumina v1.1)
Step Type = No Outputs
Reagent Kits
AmpliSeq Library PLUS for Illumina
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Sample Table (Column Headers)
Step Data (Master Step Fields)
Step File Placeholders
Master Step Name = Ligate Indexes (AmpliSeq for Illumina v1.1)
Step Type = Add Labels
Derived Sample Generation = Fixed, 1
Naming Convention = {InputItemName}
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Sample Table (Column Headers)
Defaults
Sample Grouping = Group by Containers
Well Sort Order = Row
Placement Pattern = Column
Label Groups
AmpliSeq CD Indexes Set A for Illumina
AmpliSeq CD Indexes Set B for Illumina
AmpliSeq CD Indexes Set C for Illumina
Step Data (Master Step Fields)
Step File Placeholders
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Derived Sample
Waiting
Built-in
Project
Project Name
Built-in
Step File Placeholders
Log - Automatically attached
Sample Table
Sample Display Default = Expand
Well Sort Order = Row
Table Columns - Global Fields
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Derived Sample
Waiting
Built-in
Project
Project Name
Built-in
Criteria 1 - Threshold Value
Numeric
Criteria 2 - Operator
Text
Default = <=
Criteria 2 - Source Data Field
Text
Default = Concentration
Criteria 2 - Threshold Value
Numeric
Step File Placeholders
Log - Automatically attached
QC Log File - Automatically attached
QC Result File - Automatically attached
Upload File - Manually uploaded
Sample Table
Enable QC Flags = Yes
Sample Display Default = Expand
Well Sort Order = Row
File Column Options
File Column Display = Hide
File Attachment Method = Auto
Table Columns - Global Fields
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Derived Sample
Waiting
Built-in
Project
Project Name
Built-in
Step File Placeholders
Log - Automatically attached
Sample Table
Sample Display Default = Expand
Well Sort Order = Row
Table Columns - Global Fields
Reagent Kits
AmpliSeq cDNA Synthesis for Illumina
Supplier = Illumina
Catalog Number = 20022654
Website = www.illumina.com
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Derived Sample
Waiting
Built-in
Project
Project Name
Built-in
Destination Containers
96 well plate
Recommended Prep Input (ng) = Each reaction requires 1-100 ng of DNase-treated total RNA. The recommended input is 10 ng RNA.
Thermal Cycler Program = RT
Total Samples = 0
Recommended Prep Input (ng) = Each reaction requires 1-100 ng of DNase-treated total RNA per pool. The recommended input is 10 ng RNA per pool.
Thermal Cycler Program = RT
Total Samples = 0
Recommended Prep Input (ng) = Each reaction requires 1-100 ng of DNase-treated total RNA. The recommended input is 10 ng RNA.
Thermal Cycler Program = RT
Recommended Prep Input (ng) = Each reaction requires 10-1000 ng of DNase-treated total RNA. If RNA is not limiting, the recommended input is 1000 ng RNA. High RNA input amounts are recommended for rare clones.
Thermal Cycler Program = RT
Recommended Prep Input (ng) = Each reaction requires 1-100 ng of DNase-treated total RNA. The recommended input is 10 ng RNA.
Thermal Cycler Program = RT
Total Samples = 0
Recommended Prep Input (ng) = Each reaction requires 10-100 ng of DNase-treated total RNA. The recommended input is 10 ng RNA.
Thermal Cycler Program = RT
Total Samples = 0
Recommended Prep Input (ng) = Each reaction requires 50-1000 ng of DNase-treated total RNA. If RNA is not limited, the recommended input is 1000 ng RNA
Thermal Cycler Program = RT
Recommended Prep Input (ng) = Each reaction requires 1-100 ng of DNase-treated total RNA. The recommended input is 10 ng RNA.
Thermal Cycler Program = RT
Total Samples = 0
5X AmpliSeq cDNA Reaction Mix (uL)
Numeric
Decimal Places Displayed = 1
10X AmpliSeq RT Enzyme Mix (uL)
Numeric
Decimal Places Displayed = 1
AmpliSeq ERCC RNA Spike-in Mix
Numeric
Default = No
AmpliSeq ERCC RNA Spike-in Mix (uL)
Numeric
Decimal Places Displayed = 2
AmpliSeq ERCC RNA Spike-in Mix Lot#
Numeric
Desired Concentration (ng/uL)
Numeric
Read Only
Directions
Multiline Text
Default = If RNA was prepared from FFPE tissue and never heat-treated, heat at 80°C for 10 minutes and then cool to room temperature before proceeding to reverse transcription.
Nuclease-free water (uL)
Numeric
Decimal Places Displayed = 1
Prep Input Amount (ng)
Numeric
Default = 2
Range = 2 To 1000
Prep Input Volume (uL)
Numeric
Decimal Places Displayed = 2
Recommended Prep Input (ng)
Multiline Text
Read Only
Default = Each reaction requires 1-100 ng of DNase-treated total RNA. The recommended input is 10 ng RNA.
Thermal Cycler Program
Text
Read Only
Default = RT
Total Samples
Numeric
Default = 0
Decimal Places Displayed = 0
Step File Placeholders
Log - Automatically attached
Sample Table
Sample Display Default = Expand
Well Sort Order = Row
Table Columns - Global Fields
Reagent Kits
AmpliSeq Library PLUS for Illumina
Supplier = Illumina
Catalog Number = 24 - 20019101; 96 - 200191102; 384 - 200191103
Website =
AmpliSeq Transcriptome Gene Expression Panel for Illumina
Supplier = Illumina
Catalog Number = 20019170
Website =
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Derived Sample
Waiting
Built-in
Project
Project Name
Built-in
AmpliSeq ERCC RNA Companion Panel for Illumina Lot#
Text
Nuclease-free water (uL)
Numeric
Decimal Places Displayed = 2
PCR Cycles
Text
Thermal Cycler Program
Text
Default = AMP_RNA
Total Samples
Numeric
Default = 0
Step File Placeholders
Log - Automatically attached
Sample Table
Sample Display Default = Expand
Well Sort Order = Row
Table Columns - Global Fields
Supplier = Illumina
Catalog Number = 24 - 20019101; 96 - 200191102; 384 - 200191103
Website = www.illumina.com
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Derived Sample
Waiting
Built-in
Project
Project Name
Built-in
Log - Automatically attached
Sample Table
Sample Display Default = Expand
Well Sort Order = Row
Table Columns - Global Fields
AmpliSeq Library PLUS for Illumina
Supplier = Illumina
Catalog Number = 24 - 20019101; 96 - 200191102; 384 - 200191103
Website = www.illumina.com
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Derived Sample
Waiting
Built-in
Project
Project Name
Built-in
Destination Containers
96 well plate
AmpliSeq CD Indexes Set D for Illumina
AmpliSeq UD Indexes for Illumina (24 Indexes)
Log - Automatically attached
Sample Table
Sample Display Default = Expand
Well Sort Order = Row
Table Columns - Global Fields
Field Name
Field Type
Options
Additional Options and Dropdown Items
Desired Concentration (ng/uL)
Numeric
Range = 0 to 1000
Directions
Multiline Text
Read Only
Field Name
Field Type
Options
Additional Options and Dropdown Items
Criteria 1 - Operator
Text
Default = >=
Criteria 1 - Source Data Field
Text
Field Name
Field Type
Options
Additional Options and Dropdown Items
Desired Concentration (ng/uL)
Numeric
Range = 0 To 1000
Directions
Multiline Text
Read Only
Field Name
Field Type
Options
Field Name
Field Type
Options
Additional Options and Dropdown Items
5X AmpliSeq HiFi Mix (uL)
Numeric
Decimal Places Displayed = 2
AmpliSeq ERCC RNA Companion Panel for Illumina
Toggle Switch
Field Name
Field Type
Options
Additional Options and Dropdown Items
Thermal Cycler Program
Text
Default = FUPA
Field Name
Field Type
Options
Additional Options and Dropdown Items
Thermal Cycler Program
Text
Default = LIGATE
Default = If enough RNA is available, dilute to intermediate concentration ~20-50 ng/uL.
Default = Concentration
Default = If enough RNA is available, dilute to intermediate concentration ~20-50 ng/uL.
Additional Options and Dropdown Items
Default = No
bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Concentration:: = input.::Concentration:: ; output.::Conc. Units:: = input.::Conc. Units:: ; output.::Sample Volume (uL):: = 5' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'output.::Total Volume (uL):: = (output.::Concentration::/step.::Desired Concentration (ng/uL)::) * output.::Sample Volume (uL):: ; \
output.::Nuclease-free water (uL):: = output.::Total Volume (uL):: - output.::Sample Volume (uL):: ; \
output.::Input Amount (ng):: = step.::Desired Concentration (ng/uL):: * output.::Total Volume (uL):: ' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Desired Concentration (ng/uL):: = step.::Desired Concentration (ng/uL)::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'nextStep = ::ADVANCE::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {processURI:v2} -u {username} -p {password} script:assignQC -log {compoundOutputFileLuid1} -qcResult {compoundOutputFileLuid2}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} script:evaluateDynamicExpression -t false -h false -exp 'nextStep = ::ADVANCE:: ; input.::Concentration:: = output.::Concentration:: ; input.::Conc. Units:: = output.::Conc. Units::' -log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Concentration:: = input.::Concentration:: ; output.::Conc. Units:: = input.::Conc. Units:: ; output.::Sample Volume (uL):: = 5' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'output.::Total Volume (uL):: = (output.::Concentration::/step.::Desired Concentration (ng/uL)::) * output.::Sample Volume (uL):: ; \
output.::Nuclease-free water (uL):: = output.::Total Volume (uL):: - output.::Sample Volume (uL):: ; \
output.::Input Amount (ng):: = step.::Desired Concentration (ng/uL):: * output.::Total Volume (uL):: ' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'nextStep = ::ADVANCE::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Desired Concentration (ng/uL):: = step.::Desired Concentration (ng/uL)::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'step.::Total Samples:: = step.::Total Samples:: + 1' \
-log {compoundOutputFileLuid0} && /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Concentration:: = input.::Concentration:: ; \
output.::Conc. Units:: = input.::Conc. Units:: ; \
output.::Total Volume (uL):: = input.::Total Volume (uL):: ; \
output.::Input Amount (ng):: = input.::Input Amount (ng):: ; \
step.::Desired Concentration (ng/uL):: = input.::Desired Concentration (ng/uL)::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'step.::Prep Input Volume (uL):: = step.::Prep Input Amount (ng):: / step.::Desired Concentration (ng/uL):: ; \
if (step.::Prep Input Volume (uL):: < 3.5) {step.::Nuclease-free water (uL):: = (3.5 - (step.::Prep Input Volume (uL):: + output.::AmpliSeq ERCC RNA Spike-in Volume (uL)::)) * step.::Total Samples::*1.1} else {step.::Nuclease-free water (uL):: = 0} ; \
step.::5X AmpliSeq cDNA Reaction Mix (uL):: = step.::Total Samples:: * 1.1 * 1 ; \
step.::10X AmpliSeq RT Enzyme Mix (uL):: = step.::Total Samples:: * 1.1 * 0.5 ; \
step.::AmpliSeq ERCC RNA Spike-in Mix (uL):: = step.::Total Samples:: * output.::AmpliSeq ERCC RNA Spike-in Volume (uL):: *1.1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'nextStep = ::ADVANCE::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'step.::Prep Input Volume (uL):: = step.::Prep Input Amount (ng):: / step.::Desired Concentration (ng/uL):: ; \
if (step.::Prep Input Volume (uL):: < 7) {step.::Nuclease-free water (uL):: = (7 - step.::Prep Input Volume (uL)::) * step.::Total Samples::*1.1} else {step.::Nuclease-free water (uL):: = 0} ; \
step.::5X AmpliSeq cDNA Reaction Mix (uL):: = step.::Total Samples:: * 1.1 * 2 ; \
step.::10X AmpliSeq RT Enzyme Mix (uL):: = step.::Total Samples:: * 1.1 * 1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'step.::Prep Input Volume (uL):: = step.::Prep Input Amount (ng):: / step.::Desired Concentration (ng/uL):: ; \
if (step.::Prep Input Volume (uL):: < 7) {step.::Nuclease-free water (uL):: = (7 - step.::Prep Input Volume (uL)::) * step.::Total Samples::*1.1} else {step.::Nuclease-free water (uL):: = 0} ; \
step.::5X AmpliSeq cDNA Reaction Mix (uL):: = step.::Total Samples:: * 1.1 * 2; \
step.::10X AmpliSeq RT Enzyme Mix (uL):: = step.::Total Samples:: * 1.1 * 1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'step.::Prep Input Volume (uL):: = step.::Prep Input Amount (ng):: / step.::Desired Concentration (ng/uL):: ; \
if (step.::Prep Input Volume (uL):: < 3.5) {step.::Nuclease-free water (uL):: = (3.5 - step.::Prep Input Volume (uL)::) * step.::Total Samples::*1.1} else {step.::Nuclease-free water (uL):: = 0} ; \
step.::5X AmpliSeq cDNA Reaction Mix (uL):: = step.::Total Samples:: * 1.1 * 1 ; \
step.::10X AmpliSeq RT Enzyme Mix (uL):: = step.::Total Samples:: * 1.1 * 0.5' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'step.::Prep Input Volume (uL):: = step.::Prep Input Amount (ng):: / step.::Desired Concentration (ng/uL):: ; \
if (step.::Prep Input Volume (uL):: < 7.0) {step.::Nuclease-free water (uL):: = (7.0 - (step.::Prep Input Volume (uL):: + output.::AmpliSeq ERCC RNA Spike-in Volume (uL)::)) * step.::Total Samples::*1.1} else {step.::Nuclease-free water (uL):: = 0} ; \
step.::5X AmpliSeq cDNA Reaction Mix (uL):: = step.::Total Samples:: * 1.1 * 1 ; \
step.::10X AmpliSeq RT Enzyme Mix (uL):: = step.::Total Samples:: * 1.1 * 0.5 ; \
step.::AmpliSeq ERCC RNA Spike-in Mix (uL):: = step.::Total Samples:: * output.::AmpliSeq ERCC RNA Spike-in Volume (uL):: *1.1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'step.::Prep Input Volume (uL):: = step.::Prep Input Amount (ng):: / step.::Desired Concentration (ng/uL):: ; \
if (step.::Prep Input Volume (uL):: < 3.5) {step.::Nuclease-free water (uL):: = (3.5 - step.::Prep Input Volume (uL)::) * step.::Total Samples::*1.1} else {step.::Nuclease-free water (uL):: = 0} ; \
step.::5X AmpliSeq cDNA Reaction Mix (uL):: = step.::Total Samples:: * 1.1 * 1 ; \
step.::10X AmpliSeq RT Enzyme Mix (uL):: = step.::Total Samples:: * 1.1 * 0.5' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'step.::Prep Input Volume (uL):: = step.::Prep Input Amount (ng):: / step.::Desired Concentration (ng/uL):: ; \
if (step.::Prep Input Volume (uL):: < 7) {step.::Nuclease-free water (uL):: = (7 - step.::Prep Input Volume (uL)::) * step.::Total Samples::*1.1} else {step.::Nuclease-free water (uL):: = 0} ; \
step.::5X AmpliSeq cDNA Reaction Mix (uL):: = step.::Total Samples:: * 1.1 * 2 ; \
step.::10X AmpliSeq RT Enzyme Mix (uL):: = step.::Total Samples:: * 1.1 * 1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t true \
-h false \
-exp 'step.::Prep Input Volume (uL):: = step.::Prep Input Amount (ng):: / step.::Desired Concentration (ng/uL):: ; \
if (step.::Prep Input Volume (uL):: < 7) {step.::Nuclease-free water (uL):: = (7 - step.::Prep Input Volume (uL)::) * step.::Total Samples::*1.1} else {step.::Nuclease-free water (uL):: = 0} ; \
step.::5X AmpliSeq cDNA Reaction Mix (uL):: = step.::Total Samples:: * 1.1 * 2; \
step.::10X AmpliSeq RT Enzyme Mix (uL):: = step.::Total Samples:: * 1.1 * 1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'step.::Total Samples:: = step.::Total Samples:: + 1' \
-log {compoundOutputFileLuid0} && /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Concentration:: = input.::Desired Concentration (ng/uL):: ; \
output.::Conc. Units:: = input.::Conc. Units:: ; \
output.::Total Volume (uL):: = input.::Total Volume (uL):: ; \
output.::Input Amount (ng):: = input.::Input Amount (ng):: ; \
step.::Desired Concentration (ng/uL):: = input.::Desired Concentration (ng/uL)::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'step.::Total Samples:: = step.::Total Samples:: + 1' \
-log {compoundOutputFileLuid0} && /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Sample Type:: = ::cDNA:: ; \
step.::5X AmpliSeq HiFi Mix (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::Nuclease-free water (uL):: = 3.0 * step.::Total Samples:: * 1.1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'nextStep = ::ADVANCE::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Diluted RNA Conc. (ng/uL):: = input.::Desired Final Concentration (ng/uL):: ; \
output.::Master Mix (uL):: = 10 ; \
step.::Total Samples:: = step.::Total Samples:: + 1 ; \
step.::5X AmpliSeq HiFi Mix (uL):: = step.::Total Samples:: *1.1* 4 ; \
step.::5X AmpliSeq Custom RNA Panel (uL):: = step.::Total Samples:: * 1.1 * 4 ; \
output.::RNA Volume (uL):: = 10 / output.::Diluted RNA Conc. (ng/uL):: ; \
if (output.::RNA Volume (uL):: < 10) {output.::Nuclease-free water (uL):: = 20 -(output.::Master Mix (uL):: + output.::RNA Volume (uL)::)}' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Diluted RNA Conc. (ng/uL):: = input.::Desired Final Concentration (ng/uL):: ; \
output.::Master Mix (uL):: = 10 ; \
step.::Total Samples:: = step.::Total Samples:: + 1 ; \
step.::5X AmpliSeq HiFi Mix (uL):: = step.::Total Samples:: *1.1* 4.5 ; \
step.::5X AmpliSeq Custom RNA Panel (uL):: = step.::Total Samples:: * 1.1 * 4 ; \
output.::RNA Volume (uL):: = 10 / output.::Diluted RNA Conc. (ng/uL):: ; \
if (output.::RNA Volume (uL):: < 10) {output.::Nuclease-free water (uL):: = 20 -(output.::Master Mix (uL):: + output.::RNA Volume (uL)::)}' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'Sample Type' \
--FIELD_VALUE 'cDNA' \
--WORKFLOW 'DNA Library Prep AmpliSeq for Illumina TCR beta-SR Panel v1.1' \
--STEP 'Transfer RNA and DNA Amplicons (AmpliSeq for Illumina TCR beta-SR Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'Sample Type' \
--FIELD_VALUE 'cDNA' \
--WORKFLOW 'DNA Library Prep AmpliSeq for Illumina Myeloid Panel v1.1' \
--STEP 'Transfer RNA and DNA Amplicons (AmpliSeq for Illumina Myeloid Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' "bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'Sample Type' \
--FIELD_VALUE 'cDNA' \
--WORKFLOW 'DNA Library Prep AmpliSeq for Illumina TCR beta-SR Panel v1.1' \
--STEP 'Transfer RNA and DNA Amplicons (AmpliSeq for Illumina TCR beta-SR Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' "bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'step.::Total Samples:: = step.::Total Samples:: + 1' \
-log {compoundOutputFileLuid0} && /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Sample Type:: = ::cDNA:: ; \
step.::5X AmpliSeq HiFi Mix (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::5X AmpliSeq Custom RNA Panel (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::Nuclease-free water (uL):: = 2.0 * step.::Total Samples:: * 1.1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'step.::Total Samples:: = step.::Total Samples:: + 1' \
-log {compoundOutputFileLuid0} && /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Sample Type:: = ::cDNA:: ; \
step.::5X AmpliSeq HiFi Mix (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::5X AmpliSeq Immune Repertoire Panel (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::Nuclease-free water (uL):: = 7.0 * step.::Total Samples:: * 1.1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'step.::Total Samples:: = step.::Total Samples:: + 1' \
-log {compoundOutputFileLuid0} && /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Sample Type:: = ::cDNA:: ; \
step.::5X AmpliSeq HiFi Mix (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::Nuclease-free water (uL):: = 2.0 * step.::Total Samples:: * 1.1 ; \
step.::5x AmpliSeq Immune Response Panel (uL):: = 2.0 * step.::Total Samples:: * 1.1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'step.::Total Samples:: = step.::Total Samples:: + 1' \
-log {compoundOutputFileLuid0} && /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Sample Type:: = ::cDNA:: ; \
step.::5X AmpliSeq HiFi Mix (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::Nuclease-free water (uL):: = 7.0 * step.::Total Samples:: * 1.1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'step.::Total Samples:: = step.::Total Samples:: + 1' \
-log {compoundOutputFileLuid0} && /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'output.::Sample Type:: = ::cDNA:: ; \
step.::5X AmpliSeq HiFi Mix (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::5X AmpliSeq TCR beta-SR Panel (uL):: = 4.0 * step.::Total Samples:: * 1.1 ; \
step.::Nuclease-free water (uL):: = 2.0 * step.::Total Samples:: * 1.1' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'nextStep = ::ADVANCE::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} \
script:evaluateDynamicExpression \
-t false \
-h false \
-exp 'nextStep = ::ADVANCE::' \
-log {compoundOutputFileLuid0}"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Transcriptome Human Gene Expression Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Transcriptome Human Gene Expression Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Transcriptome Human Gene Expression Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Transcriptome Human Gene Expression Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Immune Repertoire Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Immune Repertoire Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Immune Repertoire Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Immune Repertoire Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina BRCA Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina BRCA Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina BRCA Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina BRCA Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Childhood Cancer Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Childhood Cancer Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Childhood Cancer Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Childhood Cancer Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Cancer HotSpot Panel V2 v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Cancer HotSpot Panel V2 v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Cancer HotSpot Panel V2 v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Cancer HotSpot Panel V2 v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Comprehensive Panel v3 v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Comprehensive Panel v3 v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Comprehensive Panel v3 v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Comprehensive Panel v3 v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Custom DNA Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Custom DNA Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Custom DNA Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Custom DNA Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Focus Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Focus Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Focus Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Focus Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Immune Response Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Immune Response Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Immune Response Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Immune Response Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"bash -l -c "/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -u {username} -p {password} -i {stepURI:v2} -l {compoundOutputFileLuid0} script:changeWorkflow \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Standard Workflow' \
--WORKFLOW 'Standard Workflow AmpliSeq for Illumina Myeloid Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Myeloid Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS' \
\
--FIELD_NAME 'AmpliSeq Workflow' \
--FIELD_VALUE 'Equalizer Workflow' \
--WORKFLOW 'Equalizer Workflow AmpliSeq for Illumina Myeloid Panel v1.1' \
--STEP 'Clean Up Library (AmpliSeq for Illumina Myeloid Panel v1.1)' \
--INPUTS_OR_OUTPUTS 'OUTPUTS'"Required Field
Derived Sample
Sample Name
Built-in
Measurement
Concentration
Numeric
Decimal Places Displayed = 2
Measurement
Conc. Units
Text
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Derived Sample
Concentration
Numeric
Required Field
Decimal Places Displayed = 2
Derived Sample
Conc. Units
Text
Required Field
Derived Sample
Input Amount (ng)
Numeric
Decimal Places Displayed = 0
Derived Sample
Nuclease-free water (uL)
Numeric
Decimal Places Displayed = 2
Derived Sample
Sample Name
Built-in
Derived Sample
Sample Volume (uL)
Numeric
Decimal Places Displayed = 2
Derived Sample
Total Volume (uL)
Numeric
Decimal Places Displayed = 2
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Derived Sample
Concentration
Numeric
Required Field
Decimal Places Displayed = 2
Derived Sample
Conc. Units
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Derived Sample
Concentration
Numeric
Required Field
Decimal Places Displayed = 2
Derived Sample
Conc. Units
Text
Required Field
Derived Sample
Input Amount (ng)
Numeric
Decimal Places Displayed = 0
Derived Sample
Nuclease-free water (uL)
Numeric
Decimal Places Displayed = 2
Derived Sample
Sample Name
Built-in
Derived Sample
Sample Volume (uL)
Numeric
Decimal Places Displayed = 2
Derived Sample
Total Volume (uL)
Numeric
Decimal Places Displayed = 2
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Derived Sample
AmpliSeq ERCC RNA Spike-in Volume (uL)
Numeric
Default = 0
Range = 0 To 2
Decimal Places Displayed = 2
Derived Sample
Concentration
Numeric
Required Field
Decimal Places Displayed = 2
Derived Sample
Conc. Units
Text
Required Field
Derived Sample
Input Amount (ng)
Numeric
Decimal Places Displayed = 0
Derived Sample
Sample Name
Built-in
Derived Sample
Total Volume (uL)
Numeric
Decimal Places Displayed = 2
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Project
Project Name
Built-in
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Container
Container Name
Built-in
Container
LIMS ID (Container)
Built-in
Container
Well
Built-in
Derived Sample
Sample Name
Built-in
Project
Project Name
Built-in
Category
Field Name
Field Type
Options
Additional Options and Dropdown Items
Derived Sample
AmpliSeq Workflow
Text Dropdown
Required Field
Presets
Standard Workflow
Equalizer Workflow
Derived Sample
Sample Name
Built-in
Text