VCF permutation tool
Project description
Introduction
Mutation load tool can be used to permutate VCF files for given BAM file with the same amount and similar mutations as in the corresponding VCF file, depending on the given permutation options. In addition, it can be used to plot CDF function for read depths.
Before you use the tool
Before you can use Mutation load tool, you need to specify path to SAMtools in mutation_load_config.ini file. In addition, if you want to use BED file(s) to limit BAM region, you need to specify the location of BEDtools in the same file.
After modifying the configuration file, you should run the program with command
python3 --bam "<file1.bam> <file2.bam> <file3.bam>" --get_id_only
.
The program should give different name for each BAM file, so in the real run it can give different names to files corresponding to different BAM files. By default, Mutation load tool creates the name by taking 10 first characters from the original file name, but this can be modified with --name_start_index
and --name_end_index
options. Another way is to use --regex_sampleid
and modify regex_patterns.py so that it returns wanted sample ids. This should again be tested with --get_id_only
option.
Also, when running the tool with permutation or CDF mode, you need to provide reference fasta file (like Homo_sapiens.GRCh38.dna.primary_assembly.fa) for SAMtools with --reference
argument.
Filtering BAM files
Program uses SAMtools to read BAM files and keep count on genomic positions to which it can later permutate mutations. In addition, CDF plot is made based on the output of SAMtools. By default, there are no bitflags filtered, but you can use basic SAMtools filtering by giving bits with -f 4 -F 8
. If you have other SAMtools arguments you want to use, you can give them with --other "-q 10 -m 3"
.
In addition, you can use BED files with -L "file1.bed file2.bed"
, and flank them (increase the area) with for example --flank_downstream 5 --flank_upstream 10
.
Both SAMtools filtering and BED files can be used to limit the CDF area as well as permutation. However, one can also limit permutation regions with read depth limits. If one gives --depth_lim 20
, mutations can be permutated from only those genomic positions that have read depth 20 or more. In addition, mutations in original VCF that are located in positions that have read depth under the limit are ignored, unless --no_vcf_filter
is given. Similarly --rev_limit
and --for_limit
can be used to limit permutation regions based on forward and reverse strand read depths.
Permutation
Mandatory options
To permutate VCF files, you need to give BAM file(s) with --bam "file1.bam file2.bam", as well as VCF file(s) with --vcf_file "file1.vcf file2.vcf". Order of the given files is important, since for example the first BAM file is paired with the first VCF file, the second BAM file with the second VCF file and so on. Instead of using --bam, you can also get all BAM files from certain directory with --directory "path/to/dir/". However, then you need to give VCF files in the same order as BAM files are found with os.walk("path/to/dir/", topdown=True).
Other mandatory argument is --destination "path/to/destination_dir". Folder named mutation_load_tool is made to the given destination folder, if one does not yet exist. All files and directories, temporal as well as permanent, made by Mutation load tool, are created to that directory. In addition, when you run the permutation, you need to specify table_annovar.pl with --table_annovar and ANNOVAR folder with --annovar.
Other important options
In addition, one should give --perm_amount argument to define, how many permutated VCF files she wants to create per BAM-VCF-pair. Default is 100.
One can also choose what kind of mutations are permutated and skipped. For example with argument --skip_nonexon
all non exonic regions are skipped in the original VCF, and only exonic mutations are permutated. This can also be used without --separate_regions
option, which makes sure, that program permutates the same amount of mutations from the same regions as in the original VCF. If one wants to permutate similar amount of synonymous, nonsynonymous and other type of mutations as in the original VCF, instead of permutating just the same amount of mutations, one can give --separate_syn
argument. This cannot be used if --separate_regions
is not given.
Example
One could run mutation_load.py with permutation for example using command
python3 mutation_load.py --bam "file1.bam file2.bam" --vcf_file "file1.vcf file2.vcf" --destination "path/to/destination_dir" --table_annovar /path/to/table_annovar.pl --annovar /path/to/humandb_060418
.
This would create 100 permutated VCF files for both file1.bam and file2.bam, that have the same amount of SNV and indel mutations as in the original corresponding VCF files. With command
python3 mutation_load.py --bam "file1.bam file2.bam" --vcf_file "file1.vcf file2.vcf" --destination "path/to/destination_dir" --table_annovar /path/to/table_annovar.pl --annovar /path/to/humandb_060418 --separate_regions --separate_syn
there would again be same amount of SNV and indel mutations in the permutated VCF files, but in addition, the amount of for example splice site and intronic as well as nonsynonymous and synonymous exonic mutations would be same as in the original corresponding VCF files.
Continue permutation
If program crashed during permutation, or you want to permutate more VCF files and you still have temporal generated VCF files, you can continue the permutation with --continue
. In addition, you need to give the location of the generated VCF files (the path of mutation_load_tool folder) with --gen_vcf_location
and previous report with --report
. In addition, you need to give all the usual permutation options.
CDF plot of the read depths
One can also use the program to plot CDF of read depths of the given BAM files with --plot_cdf
option. You can skip all other steps with options --skip_permutation
and --no_vcf_generate
. Thus, the command to plot read depth CDF plots would be
python3 mutation_load.py --bam "file1.bam file2.bam" --destination "path/to/destination_dir" --table_annovar /path/to/table_annovar.pl --annovar /path/to/humandb_060418 --plot_cdf --skip_permutation --no_vcf_generate
.
If you only give 1 BAM file, the plot would be like in Figure 1. If you give more than 1 BAM file, the plot would be like in Figure 2.
Running parallel runs to the same destination
Permutation takes time, but you can run parallel runs to the same destination with different BAM-VCF-pairs. However, you should then give --keep_temp_files
, because otherwise the program deletes all the temporan directories after one run has finished, and all the files from other files are deleted.
Different options
-h, --help Show this help message and exit.
Input options (Define your input files and directories.):
-b BAM, --bam=BAM Bam file(s) that will be used in permutation or plot.
--vcf_file=VCF_FILE VCF file(s) for permutation given in the same order as the
corresponding bam files.
-d DIRECTORY, --directory=DIRECTORY If you want the program to run through all bam files in a
certain directory.
Output options (Define output directory and if you want to keep all temporal files for debugging.):
--destination=DESTINATION Destination for cdf file, report, permutations etc.
--plot_cdf If you do not want CDF plot of read depths. Then you also need R packages
ggplot2, dplyr, RColorBrewer and scales. Default: False.
--lbuffer=LBUFFER Maximum number of lines per generated vcf_file to save memory. Default is
821600, which takes 3G memory with ANNOVAR.
--no_vcf_generate If you do not want to generate VCF with all possible mutations.
They are needed in permutation. Default: False.
--keep_temp_files If you want to keep temporal anno files, generated VCF and temporal
mutation files for debugging. Set True, if you have parallel runs to
the same destination. Default: False.
Permutation options (With these options you can for example decide which mutations you want to include and
keep count on permutation):
--perm_amount=PERM_AMOUNT How many permutations you want for every bam, default: 100.
--skip_permutation If you do not want permutations.
--no_vcf_filter If you do not want to filter given VCF based on BAM read depths.
--skip_nonexon If you want to skip all non exon mutations in permutation.
Can be used without --separate_regions.
--separate_regions If you want to permutate same amount of mutations in same regions.
--separate_syn If you want same amount of synonymous and nonsynonymous mutations as in input VCF.
Does not work without --separate_regions.
Naming policy (Naming options for files and sample names in coverages plot.):
--prefix=PREFIX Prefix for you files.
--name_start_index=NAME_START_INDEX Starting index of BAM file when creating name for plot and permutation files.
Default: 0
--name_end_index=NAME_END_INDEX Ending index of BAM file when creating name for plot and permutation files.
Default: 10.
--get_id_only If you want to check how program identifies the sample ids.
--regex_sampleid If you want to use modified regex_patterns.py to find sample ids
for files. Default: False.
Trimming and samtools options (With these options you can choose reference fasta file and exclude for example reads
with certain bitflags or too little read depth.):
--depth_lim=DEPTH_LIM Minimum depth to reads for coverages and permutation files, default: 10.
--rev_limit=REV_LIMIT Minimum reverse depth for coverages and permutation files, default: 3.
--for_limit=FOR_LIMIT Minimum forward depth for coverages and permutation files, default: 3.
--reference=REFERENCE Reference fasta file (--reference /path/to/reference).
-L BED, --bed_file=BED If you want to limit area to certain certain region with (a) BED file(s).
--flank_upstream=FLANK_UPSTREAM How much you want to expand BED file coordinates to upstream. Default: 0.
--flank_downstream=FLANK_DOWNSTREAM How much you want to expand BED file coordinates to downstream.
Default: 0.
-F IGNORE Bit flags you want to ignore.
-f INCLUDE Bit flags you want to be set.
--headn=HEAD If you want to limit area to certain size, write for example
'-headn 10000'.
--other=OTHER_ARGS If you want to use other samtools view -arguments, write for example
'-- other "-q 10 -m 3"'.
CDF options (With these options you can decide information you want from CDF part):
-p PERCENT_INTERVAL, --percent_interval=PERCENT_INTERVAL
Percent with what distance the CDF-function will be at least printed,
default: 5. For example '-p 5'.
-r, --reverse If you want to count CDF from largest to smallest, type -r. Default:
False.
-n NUMBER, --number=NUMBER If you only want to know how many numbers have less reads than given
number (or more when compared to -m).
-m, --more If you want to know how many genomic positions have more reads than given
number.
-l LIMIT, --limit=LIMIT Program writes how many genomic positions have more reads covering site
than given limit. Default: 1.
--lower If you want to know average of reads below the limit, default is average
of reads exceeding the limit.
ANNOVAR options:
--table_annovar=TABLE_ANNOVAR Location of table_annovar.pl.
--annovar=ANNOVAR Location of ANNOVAR.
--buildver=BUILDVER Buildver version, default: hg38.
Continue from permutation:
--continue If you want to skip the first part.
--gen_vcf_location=GEN_VCF_LOCATION Directory containing generated large VCF files containing all possible
mutations for every genomic position from bam files (recursive,
subdirectories don't matter).
--report=REPORT Original report from earlier run.
Other options:
--bed_prefix=BED_PREFIX Prefix for temporal bed files (for debugging or for parallel runs).
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