Aim:
Demonstrate how to run the nextflow nf-core/rnaseq pipeline in the HPC cluster. Initially, running a test and then processing real-life data.
Create a folder for running the nf-RNA-seq pipeline
Create a new folder under your ‘myname’ folder called nextflow, and also create a subfolder called ‘run1’ for the first test of the pipeline:
mkdir myname/nextflow mkdir myname/nextflow/run1
Go to the subfolder to run the RNAseq test
cd myname/nextflow/run1
Case 1: Running a test
Download and run the workflow using minimal data provided by nf-core/rnaseq. We recommend using singularity as the profile for QUT’s HPC. Another profile option can be ‘conda.’ Note: the profile option ‘docker’ is unavailable on the HPC.
nextflow run nf-core/rnaseq -profile test,singularity --outdir results -r 3.12.0
To execute the above command in the HPC cluster prepare a PBS Pro submission script as follows:
#!/bin/bash -l #PBS -N nfrna2 #PBS -l select=1:ncpus=2:mem=4gb #PBS -l walltime=24:00:00 #work on current directory (folder) cd $PBS_O_WORKDIR #load java and set up memory settings to run nextflow module load java NXF_OPTS='-Xms1g -Xmx4g' nextflow run nf-core/rnaseq -profile test,singularity --outdir results -r 3.12.0
Submitting the job
Once you have created the folder for the run, the samplesheet.csv file, nextflow.config, and launch.pbs, you are ready to submit.
Submit the run with this command (On Lyra)
qsub launch.pbs
Monitoring the Run
You can use the command
qstat -u $USER
Alternatively, use the command
qjobs
to check on the jobs you are running. Nextflow will launch additional jobs during the run.
You can also check the .nextflow.log file for details on what is going on.
Case 2: Run RNA-seq QC check
Preparing a ‘samplesheet.csv’ file
Prepare a sample sheet file that specifies the input files to be used. To do this, we use an nf-core script to generate the ‘samplesheet.csv’ file as follows (setting strandedness to auto allows the pipeline to determine the strandedness of your RNA-seq data automatically):
Load module Python 3.10
module load python/3.10.8-gcccore-12.2.0
Download the script for creating the ‘samplesheet.csv’ metadata file.
wget -L https://raw.githubusercontent.com/nf-core/rnaseq/master/bin/fastq_dir_to_samplesheet.py chmod +x fastq_dir_to_samplesheet.py
If you do not know already, determine the path to where the FASTQ files were downloaded/are located.
cd /myname/data #then run the following command pwd
Using a text editor (i.e., VIM), edit the following code with the appropriate path to the files:
#generate the samplesheet.csv file ./fastq_dir_to_samplesheet.py /path/to/directory/containing/fastq_files/ samplesheet.csv \ --strandedness auto \ --read1_extension _R1.fastq.gz \ --read2_extension _R2.fastq.gz
Example of 'samplesheet.csv' required for nf-core/rnaseq pipeline version 3.12.0:
sample,fastq_1,fastq_2,strandedness control_1,/path/to/directory/containing/fastq_files/control-1_R1.fastq.gz,/path/to/directory/containing/fastq_files/control-1_R2.fastq.gz,auto control_2,/path/to/directory/containing/fastq_files/control-2_R1.fastq.gz,/path/to/directory/containing/fastq_files/control-2_R2.fastq.gz,auto control_3,/path/to/directory/containing/fastq_files/control-3_R1.fastq.gz,/path/to/directory/containing/fastq_files/control-3_R2.fastq.gz,auto infected_1,/path/to/directory/containing/fastq_files/infected-1_R1.fastq.gz,/path/to/directory/containing/fastq_files/infected-1_R2.fastq.gz,auto infected_2,/path/to/directory/containing/fastq_files/infected-1_R1.fastq.gz,/path/to/directory/containing/fastq_files/infected-2_R2.fastq.gz,auto infected_3,/path/to/directory/containing/fastq_files/infected-1_R1.fastq.gz,/path/to/directory/containing/fastq_files/infected-3_R2.fastq.gz,auto
Prepare the following ‘launch_QC.pbs’ script:
#!/bin/bash -l #PBS -N nfrnaseq_QC #PBS -l select=1:ncpus=2:mem=4gb #PBS -l walltime=24:00:00 #work on current directory (folder) cd $PBS_O_WORKDIR #load java and set up memory settings to run nextflow module load java NXF_OPTS='-Xms1g -Xmx4g' nextflow run nf-core/rnaseq \ -profile singularity \ -r 3.12.0 \ --input samplesheet.csv \ --outdir results \ --genome GRCh38 \ --skip_trimming \ --skip_alignment \ --skip_pseudo_alignment
We recommend running the nextflow nf-core/rnaseq pipeline once and then assessing the fastqc results folder to assess if sequence biases are present in the 5'-end and 3'-end ends of the sequences. Version 3.12.0 allows running the pipeline to do quality assessment only, without any alignment, read counting or trimming. To execute that option, add the following flags to your nextflow run nf-core/rnaseq command: --skip_trimming
, --skip_alignment
and --skip_pseudo_alignment
.
Submitting the job
Once you have created the folder for the run, the samplesheet.csv file, nextflow.config, and launch.pbs, you are ready to submit.
Submit the run with this command
qsub launch.pbs
Monitoring the Run
You can use the command
qstat -u $USER
Alternatively, use the command
qjobs
to check on the jobs, you are running. Nextflow will launch additional jobs during the run.
You can also check the .nextflow.log file for details on what is going on.
Assessing QC report
Evaluate the nucleotide distributions in the 5'-end and 3'-end of the sequenced reads (Read1 and Read 2). Define how many nucleotides should be trimmed from each region of the sequences. This will inform the parameter setting for Case 3 below.
Case 3: Run RNA-seq pipeline
Adjusting the Trim Galore options
When the initial trimming is done, verify if any more clipping needs to be done and run the nf-core/rnaseq pipeline that will perform all the steps. For example:
nextflow run nf-core/rnaseq --input samplesheet.csv \ --outdir results \ -r 3.12.0 \ --genome GRCh38 \ -profile singularity \ --aligner star_salmon \ --extra_trimgalore_args "--clip_r1 12 --clip_r2 12 --three_prime_clip_r1 2 --three_prime_clip_r2 2 "
Submitting the job
Once you have created the folder for the run, the samplesheet.csv file, nextflow.config, and launch.pbs, you are ready to submit.
Submit the run with this command (On Lyra)
qsub launch.pbs
Monitoring the Run
You can use the command
qstat -u $USER
Alternatively, use the command
qjobs
to check on the jobs, you are running. Nextflow will launch additional jobs during the run.
You can also check the .nextflow.log file for details on what is going on.