Configuration

Purpose:

• Included for validation purposes only, this protocol models the library preparation steps required to advance samples to the MiSeq i100 Series On-Prem Sequencing v1.0 workflow.

• The protocol contains a single step - Library Prep Validation v2.3.5. After this step, a routing script sends the samples to the first step of the MiSeq i100 Series On-Prem Sequencing v1.0 workflow.

Steps:

1. Library Prep Validation v2.3.5

Purpose:

• This protocol models the lab processes of run setup for starting a MiSeq i100 Series sequencing and secondary analysis run on premise.

Steps:

1. Assign Analysis Configuration Template (MiSeq i100 Series On-Prem Sequencing v1.0)

   • The secondary analysis of samples is configured using the ACT.

   • The labels applied to the samples are validated against the selected ACT to ensure that samples use valid labels.

2. Make Bulk Pool (MiSeq i100 Series On-Prem Sequencing v1.0)

   • Samples are pooled and resuspension buffers and reagents are added with the help of the 'Calculate Volumes' automation.

   • ACT of pooled samples are validated with Validate Analysis Configurations automation to ensure that the secondary analysis configurations remain valid after pooling.

3. Load To Dry Cartridge (MiSeq i100 Series On-Prem Sequencing v1.0)

   • The library pools from step 2 are now ready to be loaded to the MiSeq i100 Series dry cartridge.

   • Run and analysis information is validated.

   • Samplesheet is generated and planned run is created on MiSeq i100 Illumina Run Manager.

4. AUTOMATED - Sequencing Run (MiSeq i100 Series On-Prem Sequencing v1.0)

   • This is a fully-automated step that is started and completed automatically once the sequencing run is started and completed on the instrument side.

   • All the sequencing run metadata e.g. run configuration, primary run metrics etc. are recorded automatically.

5. AUTOMATED - Analysis Run (MiSeq i100 Series On-Prem Sequencing v1.0)

   • This is a fully-automated step that is started and completed automatically once the analysis run is started and completed on DRAGEN on premise.

   • All the analysis run metadata e.g. status and demultiplexing result files are recorded automatically.

Automatically triggered on entry of the step, this automation validates that the sample names contain only alphanumeric, dash and underscore characters.

/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 -exp 'submittedSamples.each { sample -> if ( !sample.name.matches( ::[A-Za-z0-9_-]+:: ) ) { fail ( ::Submitted sample :: + sample.name + :: should only have alphanumeric, dash, and underscore characters. Please rename and try again.:: ) } }' -log {compoundOutputFileLuid1}

Triggered when you select '1. Retrieve ACT List' button on the Record Details screen, this automation retrieves the list of ACTS that has been created using Illumina Run Manager UI.

/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/miseqi100series-onprem/automation/miseqi100series-onprem-automation.jar script:retrieve_act_list -i {stepURI:v2} -u {username} -p {password} -l {compoundOutputFileLuid1} -n 'INSTRUMENT_USED' -t true

Triggered when you select '2. Retrieve ACT Information' button on the Record Details screen, this automation:

• Retrieves the details of the selected ACT and populates the step UDFs (e.g., Analysis Version, Library Prep Kit, Index Adapter Kit, Reference Genome)

• Saves the details into a file stored in the Analysis Configuration Metadata file placeholder, which is available for user to download.

  Copy

  /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/miseqi100series-onprem/automation/miseqi100series-onprem-automation.jar script:retrieve_act_info -i {stepURI:v2} -u {username} -p {password} -l {compoundOutputFileLuid1} -a '{udf:Analysis Configuration Template}' -n 'INSTRUMENT_USED'

Automatically triggered on exit of the Record Details screen, this automation:

• Checks that the molarity of all samples are specified

  Copy

  /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 'if (!input.hasValue(::Molarity (nM)::)) { fail(::The Molarity cannot be empty.::); } else if (input.::Molarity (nM):: <= 0) { fail(::The Molarity cannot be negative or zero.::); }' -log {compoundOutputFileLuid1}

• Checks that all samples are indexed, indexes are the same as the selected ACT.

• Assign the ACT ID, ACT Name, Run Mode and Instrument ID to all the samples in the step.

  Copy

  /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/miseqi100series-onprem/automation/miseqi100series-onprem-automation.jar -i {stepURI:v2} -u {username} -p {password} -l {compoundOutputFileLuid1} -a '{udf:Analysis Configuration Template}' -n 'INSTRUMENT_USED' --derivedSampleInstrumentIdUdf 'Instrument ID' script:validate_indexes script:assign_act

• Sets the next step for samples to ADVANCE, advancing them to the next step in the protocol - Make Bulk Pool (MiSeq i100 Series On-Prem Sequencing v1.0).

  Copy

  /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 {compoundOutputFileLuid1}

Automatically triggered on exit of the Pooling screen, this automation performs analysis configuration validity and checks each pool for the following characteristics:

• Pooled samples assigned with the same secondary analysis application must have the same analysis version (e.g. v3.8.4) and settings (e.g. Map/Align Output Format = CRAM).

/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.::Instrument ID:: = input.::Instrument ID::' -log {compoundOutputFileLuid1} && \
/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/miseqi100series-onprem/automation/miseqi100series-onprem-automation.jar -i {stepURI:v2} -u {username} -p {password} -l {compoundOutputFileLuid1} -m PerPool -n 'INPUT.Instrument ID' script:validate_analysis_config  script:validate_physical_logical_configurations

Triggered when you select 'Calculate Volumes' button on the Record Details screen, this automation completes the following actions:

• Checks to ensure all samples have molarity values assigned.

  Copy

  if (!input.hasValue(::Molarity (nM)::)) { return; };

• Uses Number of Samples in Pool to calculate the volumes needed for the 2 nM intermediate library pools.

  Copy

  if (output.hasValue(::Number of Samples in Pool::)) { output.::Number of Samples in Pool:: = output.::Number of Samples in Pool:: + 1; } else { output.::Number of Samples in Pool:: = 1; }' -t true

• Calculate the Final Loading Concentration (pM)

• Copies Flowcell Type from the step inputs to the step outputs.

  Copy

  output.::Required Bulk Pool Volume (ul):: = (step.::Final Loading Concentration (pM):: / 1000) * step.::Final Loading Volume (ul):: / 4 ;
      output.::MiSeq i100 Series Flowcell Type:: = step.::Flowcell Type::;

• Calculates the per sample volume required for each library to make a 2 nM intermediate library pool and sets the total sample volume to zero.

  Copy

  input.::Per Sample Volume (ul):: = 4 * step.::Bulk Pool Volume (ul):: / input.::Molarity (nM):: / output.::Number of Samples in Pool::;
      output.::Bulk Pool Volume (ul):: = step.::Bulk Pool Volume (ul)::;
      output.::Total Sample Volume (ul):: = 0;

• Calculates the PhiX Spike-in volume if specified.

  Copy

  if (step.hasValue(::% PhiX (100 pM) Spike-In::) && step.::% PhiX (100 pM) Spike-In:: > 0) { output.::PhiX Concentration (pM):: = 100; output.::PhiX Volume (ul):: = 4 * output.::Required Bulk Pool Volume (ul):: * (step.::% PhiX (100 pM) Spike-In:: / 100) / (output.::PhiX Concentration (pM):: / 1000); } else { output.::PhiX Volume (ul):: = ::::; output.::PhiX Concentration (pM):: = ::::; }

• Calculates the adjusted per sample volume for the pools if any of the calculated volume is lesser than the value specified in Minimum Per Sample Volume (ul) step UDF.

  Copy

  script:calculate_multipool_adjusted_per_sample_volume -t

• Uses the Total Sample Volume (ul) to calculate the RSB volume (ul) required to top up the pools that are needed to create the 2 nM intermediate library pools. The RSB volume is saved to the file in the Calculation File placeholder in the Files section.

  Copy

  script:evaluateDynamicExpression \
    -exp 'if (output.hasValue(::Total Sample Volume (ul)::)) { output.::Total Sample Volume (ul):: = output.::Total Sample Volume (ul):: + input.::Adjusted Per Sample Volume (ul)::; } else { output.::Total Sample Volume (ul):: = input.::Adjusted Per Sample Volume (ul)::; }' -t true \
    script:evaluateDynamicExpression \
    -exp 'if (output.::Total Sample Volume (ul):: > output.::Bulk Pool Volume (ul)::) { output.::RSB Volume for Intermediate Pool (ul):: = 0 } else { output.::RSB Volume for Intermediate Pool (ul):: = output.::Bulk Pool Volume (ul):: - output.::Total Sample Volume (ul):: }' -t true \
    script:evaluateDynamicExpression \
      -exp 'if (output.::Bulk Pool Volume (ul):: < output.::Required Bulk Pool Volume (ul)::) { output.::RSB Volume (ul):: = output.::Required Bulk Pool Volume (ul):: - output.::Bulk Pool Volume (ul)::; } else { output.::RSB Volume (ul):: = 0.1 * step.::Final Loading Volume (ul):: - output.::Required Bulk Pool Volume (ul)::; } ; output.::KLD Volume (ul):: = 0.9 * step.::Final Loading Volume (ul)::; output.::Final Loading Concentration (pM):: = step.::Final Loading Concentration (pM)::;' -t true

• Uses the MiSeqi100Series_Bulk_Pool1.csv and MiSeqi100Series_Bulk_Pool2.csv template files to generate a single CSV file. This file contains information about the pools and the samples that they contain. The generated file is stored in the Calculation File placeholder in the Files section.

  Copy

  script:driver_file_generator \
      -t /opt/gls/clarity/extensions/conf/driverfiletemplates/MiSeqi100Series_Bulk_Pool1.csv -o 1.csv \
      script:driver_file_generator \
      -t /opt/gls/clarity/extensions/conf/driverfiletemplates/MiSeqi100Series_Bulk_Pool2.csv -o 2.csv \
      script:driver_file_generator \
      -t /opt/gls/clarity/extensions/conf/driverfiletemplates/MiSeqi100Series_Bulk_Pool3.csv -o 3.csv \
      && cat 1.csv 2.csv 3.csv > {compoundOutputFileLuid0}.csv

• Resets the Number of Samples in Pool to null before exiting the step.

  Copy

  -exp 'output.::Number of Samples in Pool:: = ::::;' -t true

Automatically triggered on exit of the Record Details screen, this automation completes the following actions:

• Proceeds only if the sample has a molarity value.

• Copies the Run Mode from input to output.

• Sets the next step for samples to ADVANCE, advancing them to the Load to Dry Cartridge (MiSeq i100 Series On-Prem Sequencing v1.0) step.

/opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/ngs-common/v5/EPP/ngs-extensions.jar -i {stepURI:v2} -u {username} -p {password} -log {compoundOutputFileLuid1} \
script:evaluateDynamicExpression -exp 'if (!input.hasValue(::Molarity (nM)::)){ return; }; output.::Run Mode:: = input.::Run Mode::; nextStep = ::ADVANCE::;'"

Automatically triggered on entry to the step, this automation checks only single pool is use to start the step.

script:validateSampleCount -min 1 -max 1

Automatically triggered on exit of the Placement screen, this automation validates the dry cartridge barcode to ensure it conforms to the barcode mask SC[0-9]{7}-SC3.

 script:validate_output_containers -r 'MiSeq i100 Series Dry Cartridge:SC[0-9]{7}-SC3' -min 1 -max 1

Triggered when you select 'Validate Run Setup and Create Planned Run' on the Record Details screen, this automation completes the following actions:

• Validates the parameters entered on the Record Details screen. These parameters are used to set up the run, generate the sample sheet file, and create the planned run on Illumina Run Manager.

  • Run Name may only contain alphanumeric, dash, underscore or period characters. Spaces are not permitted.

    Copy

    'if (!step.::Run Name::.matches(::[a-zA-Z0-9-_]+[a-zA-Z0-9-_. ]*::)) { fail(::Run Name contains prohibited characters. Please check to make sure Run Name only contains alphanumeric characters, spaces, dashes, periods and underscores. Run Name must start with alphanumeric, a dash or an underscore::); }; 

  • Run Name shall not exceed 255 characters.

    Copy

    if (step.::Run Name::.length() > 255) { fail(::Run Name shall not exceed 255 characters.::); };

• Checks the Index 1 Cycles and Index 2 Cycles field values. If Index 2 Cycles is greater than 0, the Index 1 Cycles value must be greater than 0 or an error can occur.

  Copy

  if (step.::Index 2 Cycles:: > 0 && step.::Index 1 Cycles:: == 0) { fail(::Index 1 Cycles cannot be zero if Index 2 Cycles is non-zero::); };

• Generates the sample sheet and creates the planned run on Illumina Run Manager. The sample sheet is attached to the step.

  Copy

  /opt/gls/clarity/bin/java -jar /opt/gls/clarity/extensions/miseqi100series-onprem/automation/miseqi100series-onprem-automation.jar  script:generate_sample_sheet -i {stepURI:v2} -u {username} -p {password} -c {compoundOutputFileLuid0} -l {compoundOutputFileLuid1} -n 'INPUT.Instrument ID' --instrumentType '{udf:Instrument Type}' --verifyIndexLength

Automatically triggered on exit of the Record Details screen, this automation completes the following actions:

• Sets the next step for samples to ADVANCE, advancing them to the AUTOMATED - Sequencing Run (MiSeq i100 Series On-Prem Sequencing v1.0) step.

/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 {compoundOutputFileLuid1}