Introduction
Installation
Getting IGH specific reference
Testing IGenotyper installation
Usage
Running IGenotyper
Explanation of steps
Output directories
Output files
Notes
git clone https://github.com/oscarlr/IGv2.git
cd IGv2
conda env create -f pygenometracks.yml
conda env create -f environment.yml
conda activate IGv2
python setup.py install
conda deactivate
conda create -n whatshap-latest python=3.7
conda activate whatshap-latest
pip install git+https://github.com/whatshap/whatshap
conda deactivate
conda activate IGv2
cd ..
git clone https://github.com/oscarlr/cluster
cd cluster
python setup.py install
export SJOB_DEFALLOC=NONE
# Install Kalign
conda deactivate
cd ..
wget https://github.com/TimoLassmann/kalign/archive/refs/tags/v3.3.tar.gz
tar -zxvf v3.3.tar.gz
cd kalign-3.3
./autogen.sh
./configure --prefix=$HOME
make
make check
make install
wget http://immunogenomics.louisville.edu/immune_receptor_genomics/current/reference.fasta .
samtools faidx reference.fasta
sawriter reference.fasta
cp reference.fasta* ~/anaconda3/envs/IGv2/lib/python2.7/site-packages/IGenotyper-1.1-py2.7.egg/IGenotyper/data/
# For rheMac10
sawriter reference.fasta
cp reference.fasta* ~/anaconda3/envs/IGv2/lib/python2.7/site-packages/IGenotyper-1.1-py2.7.egg/IGenotyper/data/rhesus/
cd test
IG phase subset_bam/reads.bam test # There will be an warning message about no reads for hap0.bw -- you can ignore this
IG assembly test
# <pacbio bam file> must have a pbi and bai index. They can be created using pbindex and samtools index, respectively.
IG phase <pacbio bam file> <output>
IG assembly <output>
IG detect <output>
IG phase --help
usage: IG phase [-h] [--rhesus] [--sample SAMPLE] [--threads THREADS]
[--mem MEM] [--cluster] [--queue QUEUE] [--walltime WALLTIME]
[--tmp TMP] [--input_vcf VCF]
BAM OUTDIR
positional arguments:
BAM PacBio bam file
OUTDIR Directory for output
optional arguments:
-h, --help show this help message and exit
--rhesus
--sample SAMPLE Name of sample
--threads THREADS Number of threads
--mem MEM Memory for cluster
--cluster Use cluster
--queue QUEUE Queue for cluster
--walltime WALLTIME Walltime for cluster
--tmp TMP Temporary folder
--input_vcf VCF Phased VCF file to phase reads
IG assembly --help
usage: IG assembly [-h] [--threads THREADS] [--mem MEM] [--cluster]
[--queue QUEUE] [--walltime WALLTIME]
OUTDIR
positional arguments:
OUTDIR Directory for output
optional arguments:
-h, --help show this help message and exit
--threads THREADS Number of threads
--mem MEM Memory for cluster
--cluster Use cluster
--queue QUEUE Queue for cluster
--walltime WALLTIME Walltime for cluster
IG detect --help
usage: IG detect [-h] [--hom HOM] OUTDIR
positional arguments:
OUTDIR Directory for output
optional arguments:
-h, --help show this help message and exit
--hom HOM Add homozygous reference genotype
In the first step --phase
, the subreads and CCS reads are phased and aligned to the IGH specific reference. Each read has a read group annotation. A read group annotation of 1 and 2 corresponds to haplotype 1 and 2. The read group annotation of 0 corresponds to unassignable reads. In IGV, you can seperate these reads by left clicking and selecting group by read group.
In the second step --assembly
, the haplotypes are assembled. During this process folders will be created for each region/haplotype block. Within each folder there is a bash script that runs the assembly process. These can be submitted as a single job into the cluster (this speeds up the process).
In the third step --detect
, SNVs, indels, SVs and gene/alleles are genotyped. A VCF file is created for the SNVs, a BED file for the indels and SVs, a TAB-delimited file for the gene/alleles calls.
alignments alleles assembly logs plots preprocessed report.html tmp variants
Directories | Description |
---|---|
<output>/alignments |
Alignments of CCS, subreads and contigs (phased and unphased) |
<output>/assembly |
Assembly of IGH locus |
<output>/variants |
SNVs, indels and SVs |
<output>/alleles |
Alleles in sample |
<output>/logs |
Log files with input parameters |
<output>/tmp |
Temporary files. Could be deleted. |
alignments/
ccs_to_ref*
: CCS reads aligned to referencecontigs_to_ref*
: All assembled contigs aligned to referneceigh_contigs_to_ref*
: IGH assembled contigs aligned to igh reference
assembly/
contigs.fasta
: All assembled contigsigh_contigs.fasta
: IGH assembled contigs
alleles/
assembly_alleles.bed
: Alleles extracted from the assembly for each geneassembly_genes.fasta
: Fasta sequence from the assembly for each gene/alleleccs_alleles.bed
: Alleles extracted from the CCS reads for each geneccs_genes.fasta
: Fasta sequence from the CCS reads for each gene/allele
logs/
gene_cov.txt
: Haplotype coverage for each gene
variants/
snvs_phased_from_ccs.vcf
: Phased SNVs detected from the CCS readssnvs_assembly.vcf
: SNVS detected from the assemblyindel_assembly.bed
: Indels detected from the assemblysv_assembly.bed
: SVs detected from the assemblyphased_blocks.txt
: Phased haplotype blocks
- Add IGL and IGK alleles to data/alleles.fasta