nf-core/rnaseq

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Introduction

Nextflow handles job submissions on SLURM or other environments, and supervises running the jobs. Thus the Nextflow process must run until the pipeline is finished. We recommend that you put the process running in the background through screen / tmux or similar tool. Alternatively you can run nextflow within a cluster job submitted your job scheduler.

It is recommended to limit the Nextflow Java virtual machines memory. We recommend adding the following line to your environment (typically in ~/.bashrc or ~./bash_profile):

NXF_OPTS='-Xms1g -Xmx4g'

Running the pipeline

The typical command for running the pipeline is as follows:

nextflow run nf-core/rnaseq --reads '*_R{1,2}.fastq.gz' --genome GRCh37 -profile docker

This will launch the pipeline with the docker configuration profile. See below for more information about profiles.

Note that the pipeline will create the following files in your working directory:

work            # Directory containing the nextflow working files
results         # Finished results (configurable, see below)
.nextflow_log   # Log file from Nextflow
# Other nextflow hidden files, eg. history of pipeline runs and old logs.

Updating the pipeline

When you run the above command, Nextflow automatically pulls the pipeline code from GitHub and stores it as a cached version. When running the pipeline after this, it will always use the cached version if available - even if the pipeline has been updated since. To make sure that you’re running the latest version of the pipeline, make sure that you regularly update the cached version of the pipeline:

nextflow pull nf-core/rnaseq

Reproducibility

It’s a good idea to specify a pipeline version when running the pipeline on your data. This ensures that a specific version of the pipeline code and software are used when you run your pipeline. If you keep using the same tag, you’ll be running the same version of the pipeline, even if there have been changes to the code since.

First, go to the nf-core/rnaseq releases page and find the latest version number - numeric only (eg. 1.3.1). Then specify this when running the pipeline with -r (one hyphen) - eg. -r 1.3.1.

This version number will be logged in reports when you run the pipeline, so that you’ll know what you used when you look back in the future.

Main arguments

-profile

Use this parameter to choose a configuration profile. Profiles can give configuration presets for different compute environments. Note that multiple profiles can be loaded, for example: -profile docker - the order of arguments is important!

If -profile is not specified at all the pipeline will be run locally and expects all software to be installed and available on the PATH.

• awsbatch
  • A generic configuration profile to be used with AWS Batch.
• conda
  • A generic configuration profile to be used with conda
  • Pulls most software from Bioconda
• docker
  • A generic configuration profile to be used with Docker
  • Pulls software from dockerhub: nfcore/rnaseq
• singularity
  • A generic configuration profile to be used with Singularity
  • Pulls software from DockerHub
• test
  • A profile with a complete configuration for automated testing
  • Includes links to test data so needs no other parameters

--reads

Use this to specify the location of your input FastQ files. For example:

--reads 'path/to/data/sample_*_{1,2}.fastq'

Please note the following requirements:

1. The path must be enclosed in quotes
2. The path must have at least one * wildcard character
3. When using the pipeline with paired end data, the path must use {1,2} notation to specify read pairs.

If left unspecified, a default pattern is used: data/*{1,2}.fastq.gz

--singleEnd

By default, the pipeline expects paired-end data. If you have single-end data, you need to specify --singleEnd on the command line when you launch the pipeline. A normal glob pattern, enclosed in quotation marks, can then be used for --reads. For example:

--singleEnd --reads '*.fastq'

It is not possible to run a mixture of single-end and paired-end files in one run.

Library strandedness

Three command line flags / config parameters set the library strandedness for a run:

• --forward_stranded
• --reverse_stranded
• --unstranded

If not set, the pipeline will be run as unstranded. Specifying --pico makes the pipeline run in forward_stranded mode.

You can set a default in a cutom Nextflow configuration file such as one saved in ~/.nextflow/config (see the nextflow docs for more). For example:

params {
    reverse_stranded = true
}

If you have a default strandedness set in your personal config file you can use --unstranded to overwrite it for a given run.

These flags affect the commands used for several steps in the pipeline - namely HISAT2, featureCounts, RSeQC (RPKM_saturation.py) and StringTie:

• --forward_stranded
  • HISAT2: --rna-strandness F / --rna-strandness FR
  • featureCounts: -s 1
  • RSeQC: -d ++,-- / -d 1++,1--,2+-,2-+
  • StringTie: --fr
• --reverse_stranded
  • HISAT2: --rna-strandness R / --rna-strandness RF
  • featureCounts: -s 2
  • RSeQC: -d +-,-+ / -d 1+-,1-+,2++,2--
  • StringTie: --rf

FeatureCounts Extra Gene Names

Default Attribute Type

By default, the pipeline uses gene_name as the default gene identifier group. In case you need to adjust this, specify using the option --fcGroupFeatures to use a different category present in your provided GTF file. Please also take care to use a suitable attribute to categorize the biotype of the selected features in your GTF then, using the option --fcGroupFeaturesType (default: gene_biotype).

Extra Gene Names

By default, the pipeline uses gene_names as additional gene identifiers apart from ENSEMBL identifiers in the pipeline. This behaviour can be modified by specifying --fcExtraAttributes when running the pipeline, which is passed on to featureCounts as an --extraAttributes parameter. See the user guide of the Subread package here. Note that you can also specify more than one desired value, separated by a comma: --fcExtraAttributes gene_id,...

Alignment tool

By default, the pipeline uses STAR to align the raw FastQ reads to the reference genome. STAR is fast and common, but requires a lot of memory to run, typically around 38GB for the Human GRCh37 reference genome.

If you prefer, you can use HISAT2 as the alignment tool instead. Developed by the same group behind the popular Tophat aligner, HISAT2 has a much smaller memory footprint.

To use HISAT2, use the parameter --aligner hisat2 or set params.aligner = 'hisat2' in your config file.

Reference genomes

The pipeline config files come bundled with paths to the illumina iGenomes reference index files. If running with docker or AWS, the configuration is set up to use the AWS-iGenomes resource.

--genome (using iGenomes)

There are 31 different species supported in the iGenomes references. To run the pipeline, you must specify which to use with the --genome flag.

You can find the keys to specify the genomes in the iGenomes config file. Common genomes that are supported are:

• Human
  • --genome GRCh37
• Mouse
  • --genome GRCm38
• Drosophila
  • --genome BDGP6
• S. cerevisiae
  • --genome 'R64-1-1'

There are numerous others - check the config file for more.

Note that you can use the same configuration setup to save sets of reference files for your own use, even if they are not part of the iGenomes resource. See the Nextflow documentation for instructions on where to save such a file.

The syntax for this reference configuration is as follows:

params {
  genomes {
    'GRCh37' {
      star    = '<path to the star index folder>'
      fasta   = '<path to the genome fasta file>' // Used if no star index given
      gtf     = '<path to the genome gtf file>'
      bed12   = '<path to the genome bed file>' // Generated from GTF if not given
    }
    // Any number of additional genomes, key is used with --genome
  }
}

--star_index, --hisat2_index, --fasta, --gtf, --bed12

If you prefer, you can specify the full path to your reference genome when you run the pipeline:

--star_index '[path to STAR index]' \
--hisat2_index '[path to HISAT2 index]' \
--fasta '[path to Fasta reference]' \
--gtf '[path to GTF file]' \
--bed12 '[path to bed12 file]'

Note that only one of --star_index / --hisat2_index are needed depending on which aligner you are using (see below).

The minimum requirements are a Fasta and GTF file. If these are provided and no others, then all other reference files will be automatically generated by the pipeline.

--saveReference

Supply this parameter to save any generated reference genome files to your results folder. These can then be used for future pipeline runs, reducing processing times.

--saveTrimmed

By default, trimmed FastQ files will not be saved to the results directory. Specify this flag (or set to true in your config file) to copy these files when complete.

--saveAlignedIntermediates

As above, by default intermediate BAM files from the alignment will not be saved. The final BAM files created after the Picard MarkDuplicates step are always saved. Set to true to also copy out BAM files from STAR / HISAT2 and sorting steps.

Adapter Trimming

If specific additional trimming is required (for example, from additional tags), you can use any of the following command line parameters. These affect the command used to launch TrimGalore!

--clip_r1 [int]

Instructs Trim Galore to remove bp from the 5’ end of read 1 (or single-end reads).

--clip_r2 [int]

Instructs Trim Galore to remove bp from the 5’ end of read 2 (paired-end reads only).

--three_prime_clip_r1 [int]

Instructs Trim Galore to remove bp from the 3’ end of read 1 AFTER adapter/quality trimming has been performed.

--three_prime_clip_r2 [int]

Instructs Trim Galore to re move bp from the 3’ end of read 2 AFTER adapter/quality trimming has been performed.

Library Prep Presets

Some command line options are available to automatically set parameters for common RNA-seq library preparation kits.

Note that these presets override other command line arguments. So if you specify --pico --clip_r1 0, the --clip_r1 bit will be ignored.

If you have a kit that you’d like a preset added for, please let us know!

--pico

Sets trimming and standedness settings for the SMARTer Stranded Total RNA-Seq Kit - Pico Input kit.

Equivalent to: --forward_stranded --clip_r1 3 --three_prime_clip_r2 3

Skipping QC steps

The pipeline contains a large number of quality control steps. Sometimes, it may not be desirable to run all of them if time and compute resources are limited. The following options make this easy:

• --skip_qc - Skip all QC steps, apart from MultiQC
• --skip_fastqc - Skip FastQC
• --skip_rseqc - Skip RSeQC
• --skip_genebody_coverage - Skip calculating the genebody coverage
• --skip_preseq - Skip Preseq
• --skip_dupradar - Skip dupRadar (and Picard MarkDups)
• --skip_edger - Skip edgeR MDS plot and heatmap
• --skip_multiqc - Skip MultiQC

Job resources

Automatic resubmission

Each step in the pipeline has a default set of requirements for number of CPUs, memory and time. For most of the steps in the pipeline, if the job exits with an error code of 143 (exceeded requested resources) it will automatically resubmit with higher requests (2 x original, then 3 x original). If it still fails after three times then the pipeline is stopped.

Custom resource requests

Wherever process-specific requirements are set in the pipeline, the default value can be changed by creating a custom config file. See the files hosted at nf-core/configs for examples.

If you are likely to be running nf-core pipelines regularly it may be a good idea to request that your custom config file is uploaded to the nf-core/configs git repository. Before you do this please can you test that the config file works with your pipeline of choice using the -c parameter (see definition below). You can then create a pull request to the nf-core/configs repository with the addition of your config file, associated documentation file (see examples in nf-core/configs/docs), and amending nfcore_custom.config to include your custom profile.

If you have any questions or issues please send us a message on Slack.

AWS Batch specific parameters

Running the pipeline on AWS Batch requires a couple of specific parameters to be set according to your AWS Batch configuration. Please use the -awsbatch profile and then specify all of the following parameters.

--awsqueue

The JobQueue that you intend to use on AWS Batch.

--awsregion

The AWS region to run your job in. Default is set to eu-west-1 but can be adjusted to your needs.

Please make sure to also set the -w/--work-dir and --outdir parameters to a S3 storage bucket of your choice - you’ll get an error message notifying you if you didn’t.

Other command line parameters

--outdir

The output directory where the results will be saved.

--email

Set this parameter to your e-mail address to get a summary e-mail with details of the run sent to you when the workflow exits. If set in your user config file (~/.nextflow/config) then you don’t need to specify this on the command line for every run.

-name

Name for the pipeline run. If not specified, Nextflow will automatically generate a random mnemonic.

This is used in the MultiQC report (if not default) and in the summary HTML / e-mail (always).

NB: Single hyphen (core Nextflow option)

-resume

Specify this when restarting a pipeline. Nextflow will used cached results from any pipeline steps where the inputs are the same, continuing from where it got to previously.

You can also supply a run name to resume a specific run: -resume [run-name]. Use the nextflow log command to show previous run names.

NB: Single hyphen (core Nextflow option)

-c

Specify the path to a specific config file (this is a core NextFlow command).

NB: Single hyphen (core Nextflow option)

Note - you can use this to override pipeline defaults.

--custom_config_version

Provide git commit id for custom Institutional configs hosted at nf-core/configs. This was implemented for reproducibility purposes. Default is set to master.

## Download and use config file with following git commid id
--custom_config_version d52db660777c4bf36546ddb188ec530c3ada1b96

--custom_config_base

If you’re running offline, nextflow will not be able to fetch the institutional config files from the internet. If you don’t need them, then this is not a problem. If you do need them, you should download the files from the repo and tell nextflow where to find them with the custom_config_base option. For example:

## Download and unzip the config files
cd /path/to/my/configs
wget https://github.com/nf-core/configs/archive/master.zip
unzip master.zip
 
## Run the pipeline
cd /path/to/my/data
nextflow run /path/to/pipeline/ --custom_config_base /path/to/my/configs/configs-master/

Note that the nf-core/tools helper package has a download command to download all required pipeline files + singularity containers + institutional configs in one go for you, to make this process easier.

--max_memory

Use to set a top-limit for the default memory requirement for each process. Should be a string in the format integer-unit. eg. --max_memory '8.GB'

--max_time

Use to set a top-limit for the default time requirement for each process. Should be a string in the format integer-unit. eg. --max_time '2.h'

--max_cpus

Use to set a top-limit for the default CPU requirement for each process. Should be a string in the format integer-unit. eg. --max_cpus 1

--hisatBuildMemory

Required amount of memory in GB to build HISAT2 index with splice sites. The HiSAT2 index build can proceed with or without exon / splice junction information. To work with this, a very large amount of memory is required. If this memory is not available, the index build will proceed without splicing information. The --hisatBuildMemory option changes this threshold. By default it is 200GB - if your system --max_memory is set to 128GB but your genome is small enough to build using this, then you can allow the exon build to proceed by supplying --hisatBuildMemory 100GB

--subsampFilesizeThreshold

This parameter defines the threshold in BAM file size (in bytes) at which data subsampling is used prior to the RSeQC gene_body_coverage step. This step is done to speed up and reduce compute resources for the gene body coverage analysis . For very large files this means, that the BAM file will be subsampled to compute the gene_body_coverage, for small files there will not be a subsampling step. By default this parameter is set to 10000000000 - ten gigabytes.

--sampleLevel

Used to turn of the edgeR MDS and heatmap. Set automatically when running on fewer than 3 samples.

--plaintext_email

Set to receive plain-text e-mails instead of HTML formatted.

--monochrome_logs

Set to disable colourful command line output and live life in monochrome.

--multiqc_config

Specify a path to a custom MultiQC configuration file.

Stand-alone scripts

The bin directory contains some scripts used by the pipeline which may also be run manually:

• gtf2bed
  • Script used to generate the BED12 reference files used by RSeQC. Takes a .gtf file as input
• dupRadar.r
  • dupRadar script used in the dupRadar pipeline process.
• edgeR_heatmap_MDS.r
  • edgeR script used in the Sample Correlation process