def realignIntervals(inputs, outputs):
"""
Run GATK RealignTargetCreator to find suspect intervals for realignment.
"""
bam, _success = inputs
output_intervals, flag_file = outputs
logFile = mkLogFile(logDir, bam, '.realignIntervals.log')
print "calculating realignment intervals for %s" % os.path.basename(bam)
runStageCheck('realignIntervals', flag_file, ref_files['fasta_reference'], bam, ref_files['indels_realign_goldstandard'], ref_files['indels_realign_1000G'], logFile, output_intervals)
def getEnsemblAnnotations(inputs, outputs):
"""
Annotate vcf using ENSEMBL variant effect predictor.
"""
vcf, _idx, _success = inputs
output, flag_file = outputs
logFile = mkLogFile(logDir, vcf, '.EnsemblAnnotation.log')
print "Annotating %s with ENSEMBL variant effect predictor" % os.path.basename(vcf)
runStageCheck('annotateEnsembl', flag_file, vcf, output, logFile)
def filterIndels(inputs, outputs):
"""
Use GATK VariantFiltration to filter raw INDEL calls.
"""
input_vcf, _idx, _success = inputs
output_vcf, _idxout, flag_file = outputs
logFile = mkLogFile(logDir, input_vcf, '.filterIndels.log')
print "filtering indels from %s" % input_vcf
runStageCheck('filterIndels', flag_file, ref_files['fasta_reference'], input_vcf, logFile, output_vcf)
def freebayes1(inputs,outputs):
"""
First run of Freebayes, i.e. before Base Quality Score Recalibration
"""
bam0, bam1, bam2, bam3, bam4, bam5, bam6, bam7, bam8, bam9 = inputs
output_vcf, flag_file = outputs
logFile = mkLogFile(logDir, bam1, '.freebayes.log')
print "call variants using FreeBayes: %s" % os.path.basename(bam1)
runStageCheck('freebayes1', flag_file, bam0, bam1, bam2, bam3, bam4, bam5, bam6, bam7, bam8, bam9, ref_files['fasta_reference'], output_vcf)
def dedup(inputs, outputs):
"""
Remove apparent duplicates from merged bams using Picard MarkDuplicates.
"""
input_bam, _success = inputs
output_bam, flag_file = outputs
logFile = mkLogFile(logDir, input_bam, '.dedup.log')
print "de-duping %s" % os.path.basename(input_bam)
runStageCheck('dedup', flag_file, input_bam, logFile, output_bam)
def realignIntervals(inputs, outputs):
"""
Run GATK RealignTargetCreator to find suspect intervals for realignment.
"""
input_bam0, input_bam1, input_bam2, input_bam3, input_bam4, input_bam5, input_bam6, input_bam7, input_bam8, input_bam9, input_bam10, input_bam11, input_bam12, input_bam13, input_bam14, input_bam15, input_bam16, input_bam17, input_bam18, input_bam19, input_bam20, input_bam21, input_bam22, input_bam23 = inputs
output_intervals, flag_file = outputs
logFile = mkLogFile(logDir, input_bam0, '.realignIntervals.log')
print "calculating realignment intervals for %s" % os.path.basename(input_bam0)
runStageCheck('realignIntervals', flag_file, ref_files['fasta_reference'], input_bam0, input_bam1, input_bam2, input_bam3, input_bam4, input_bam5, input_bam6, input_bam7, input_bam8, input_bam9, input_bam10, input_bam11, input_bam12, input_bam13, input_bam14, input_bam15, input_bam16, input_bam17, input_bam18, input_bam19, input_bam20, input_bam21, input_bam22, input_bam23, logFile, output_intervals)
def dedup(inputs, outputs):
"""
Remove apparent duplicates from merged bams using Picard MarkDuplicates.
"""
input_bam, _success = inputs
output_bam, flag_file = outputs
logFile = mkLogFile(logDir, input_bam, '.dedup.log')
print "de-duping %s" % os.path.basename(input_bam)
runStageCheck('dedup', flag_file, input_bam, logFile, output_bam)
def mpileuptosync(inputs,outputs):
"""
Convert mpileup to sync format for use in Popoolation2
"""
input_mpileup = inputs
output_sync, flag_file = outputs
logFile = mkLogFile(logDir, input_mpileup, '.sync.log')
print "convert from mpileup to sync format: %s" % os.path.basename(input_mpileup)
runStageCheck('mpileuptosync', flag_file, input_mpileup, output_sync)
def mpileup(inputs,outputs):
"""
Mpileup of dedupped, realigned bams - using samtools
"""
bam0, bam1, bam2, bam3, bam4, bam5, bam6, bam7, bam8, bam9 = inputs
output_mpileup, flag_file = outputs
logFile = mkLogFile(logDir, bam0, '.mpileup.log')
print "Make mpileup using Samtools: %s and other 9 files" % os.path.basename(bam0)
runStageCheck('mpileup', flag_file, ref_files['masked_reference'], bam0, bam1, bam2, bam3, bam4, bam5, bam6, bam7, bam8, bam9, output_mpileup)
def baseQualRecalCount(inputs, outputs):
"""
GATK CountCovariates, first step of base quality score recalibration.
"""
bam, _success = inputs
output_csv, flag_file = outputs
logFile = mkLogFile(logDir, bam, '.baseQualRecalCount.log')
print "count covariates using GATK for base quality score recalibration: %s" % os.path.basename(bam)
runStageCheck('baseQualRecalCount', flag_file, bam, ref_files['fasta_reference'], ref_files['dbsnp'], logFile, output_csv)
def cmh2gwas(inputs, outputs):
"""
Convert the results of the CMH test to GWAS format for viewing in IGV.
"""
test_results = inputs
gwas, flag_file = outputs
logFile = mkLogFile(logDir, test_results, '.gwas.log')
print "convert CMH results to GWAS: %s" % os.path.basename(test_results)
runStageCheck('cmh2gwas', flag_file, test_results, gwas)
def selectHighQualVariants(inputs,outputs):
"""
Select high quality variants from the initial FreeBayes variant calls to act as input for Base Quality Score Recalibration
"""
input_vcf = inputs
output_vcf, flag_file = outputs
logFile = mkLogFile(logDir, input_vcf, '.highqual.log')
print "select high quality variants using GATK SelectVariants: %s" % os.path.basename(input_vcf)
runStageCheck('selectHighQualVariants', flag_file, ref_files['fasta_reference'], input_vcf, output_vcf)
def callHAP(inputs, outputs):
"""
Use GATK HaplotypeCaller to call SNPs/Indels from recalibrated bams.
"""
bam, _success = inputs
output_vcf, _idx, flag_file = outputs
logFile = mkLogFile(logDir, bam, '.callHAPs.log')
#print "calling haplotypes from %s" % bam
runStageCheck('callHAP', flag_file, fasta_reference, bam, ref_files['dbsnp'], logFile, output_vcf)
def callVariantRecalibrator(inputs, outputs):
"""
Use GATK VariantFiltration to filter raw SNP calls.
"""
input_vcf, _idx, _success = inputs
output_recal, output_tranches, output_R, flag_file = outputs
logFile = mkLogFile(logDir, input_vcf, '.VarRecal.log')
print "VariantRecalibrator -> %s" % input_vcf
runStageCheck('callVariantRecalibrator', flag_file, fasta_reference, input_vcf, ref_files['hapmap'],ref_files['omnimap'], ref_files['1kghc'], ref_files['dbsnp'], output_recal, output_tranches, output_R, logFile)
def callIndels(inputs, outputs):
"""
Use GATK UnifiedGenotyper to call indels from recalibrated bams.
"""
bam, _success = inputs
output_vcf, _idx, flag_file = outputs
logFile = mkLogFile(logDir, bam, '.callIndels.log')
print "calling Indels from %s" % bam
runStageCheck('callIndels', flag_file, ref_files['fasta_reference'], bam, ref_files['dbsnp'], logFile, output_vcf)
def filterHapVcfs(inputs, outputs):
"""
Use GATK VariantFiltration to filter raw sample HAP calls.
"""
input_vcf, _idx, _success = inputs
output_vcf, _idxout, flag_file = outputs
logFile = mkLogFile(logDir, input_vcf, '.filterSNPs.log')
# print "filtering haplotyper vcf from %s" % input_vcf
runStageCheck('filterHapVcfs', flag_file, fasta_reference, input_vcf, logFile, output_vcf)
def filterIndels(inputs, outputs):
"""
Use GATK VariantFiltration to filter raw INDEL calls.
"""
input_vcf, _idx, _success = inputs
output_vcf, _idxout, flag_file = outputs
logFile = mkLogFile(logDir, input_vcf, '.filterIndels.log')
print "filtering indels from %s" % input_vcf
runStageCheck('filterIndels', flag_file, ref_files['fasta_reference'],
input_vcf, logFile, output_vcf)
def baseQualRecal(inputs, outputs):
"""
GATK BaseRecalibrator, first step of base quality score recalibration.
'command': "java -Xmx22g -jar /vlsci/VR0245/shared/charlotte-working/programs/GenomeAnalysisTKLite-2.3-9-gdcdccbb/GenomeAnalysisTKLite.jar -T BaseRecalibrator -I %bam -R %ref --knownSites %dbsnp -nt 8 -log %log -o %out"
"""
bam, _leftAlign_success = inputs
output_grp, flagFile = outputs
logFile = mkLogFile(pipeline_options.pipeline['logDir'], bam, '.baseQualRecal.log')
print "Base Quality recal using GATK for: %s" % bam
runStageCheck('baseQualRecal', flagFile, bam, fasta_reference, ref_files['dbsnp'], ref_files['indels_realign_goldstandard'], logFile, output_grp)
def getEnsemblAnnotations(inputs, outputs):
"""
Annotate vcf using ENSEMBL variant effect predictor.
"""
vcf, _idx, _success = inputs
output, flag_file = outputs
logFile = mkLogFile(logDir, vcf, '.EnsemblAnnotation.log')
print "Annotating %s with ENSEMBL variant effect predictor" % os.path.basename(
vcf)
runStageCheck('annotateEnsembl', flag_file, vcf, output, logFile)
def realign(inputs, outputs):
"""
Run GATK IndelRealigner for local realignment, using intervals found by realignIntervals.
Currently this interval file is hard-coded, but it should be possible to include it 'automatically'
"""
input_bam0, input_bam1, input_bam2, input_bam3, input_bam4, input_bam5, input_bam6, input_bam7, input_bam8, input_bam9 = inputs
flag_file = outputs
logFile = mkLogFile(logDir, input_bam0, '.realign.2.log')
print "realigning %s" % os.path.basename(input_bam0)
runStageCheck('realign', flag_file, ref_files['fasta_reference'], input_bam0, input_bam1, input_bam2, input_bam3, input_bam4, input_bam5, input_bam6, input_bam7, input_bam8, input_bam9, logFile)
def callApplyRecalibration(inputs, outputs):
"""
Use GATK VariantFiltration to filter raw SNP calls.
"""
#[[input_recal, _VarRecal_success], [input_vcf], [input_recal] , [input_trances]] = inputs
[input_recal, input_tranches, input_R, _VarRecal_success], input_vcf = inputs
output_vcf, flag_file = outputs
logFile = mkLogFile(logDir, input_recal, '.ApplyVarRecal.log')
print "ApplyRecalibration SNP -> %s" % input_vcf
runStageCheck('callApplyRecalibration', flag_file, fasta_reference, input_vcf, input_recal, input_tranches, output_vcf, logFile)
def callIndels(inputs, outputs):
"""
Use GATK UnifiedGenotyper to call indels from recalibrated bams.
"""
bam, _success = inputs
output_vcf, _idx, flag_file = outputs
logFile = mkLogFile(logDir, bam, '.callIndels.log')
print "calling Indels from %s" % bam
runStageCheck('callIndels', flag_file, ref_files['fasta_reference'], bam,
ref_files['dbsnp'], logFile, output_vcf)
def realign(inputs, outputs):
"""
Run GATK IndelRealigner for local realignment, using intervals found by realignIntervals.
"""
[intervals, _success], [input_bam] = inputs
output_bam, flag_file = outputs
logFile = mkLogFile(logDir, input_bam, '.realign.log')
print "realigning %s" % os.path.basename(input_bam)
runStageCheck('realign', flag_file, ref_files['fasta_reference'], input_bam, intervals, logFile, output_bam)
remove_GATK_bai(output_bam)
def baseQualRecalTabulate(inputs, outputs):
"""
GATK TableRecalibration: recalibrate base quality scores using the output of CountCovariates.
"""
[input_csv, _success], [input_bam] = inputs
output_bam, flag_file = outputs
logFile = mkLogFile(logDir, input_bam, '.baseQualRecalTabulate.log')
print "recalibrate base quality scores using GATK on %s" % os.path.basename(input_bam)
runStageCheck('baseQualRecalTabulate', flag_file, input_bam, ref_files['fasta_reference'], input_csv, logFile, output_bam)
remove_GATK_bai(output_bam)
def cmhTest(inputs, outputs):
"""
Perform a single Cochran-Mantel-Haenzel Test
Populations paired in just one arrangement
"""
sync = inputs
out, flag_file = outputs
logFile = mkLogFile(logDir, sync, '.cmh.log')
print "perform CMH test: %s" % os.path.basename(sync)
runStageCheck('cmhTest', flag_file, sync, out)
def realign(inputs, outputs):
"""
Run GATK IndelRealigner for local realignment, using intervals found by realignIntervals.
"""
[intervals, _success], [input_bam] = inputs
output_bam, flag_file = outputs
logFile = mkLogFile(logDir, input_bam, '.realign.log')
print "realigning %s" % os.path.basename(input_bam)
runStageCheck('realign', flag_file, ref_files['fasta_reference'],
input_bam, intervals, logFile, output_bam)
remove_GATK_bai(output_bam)
def baseQualRecalPrint(inputs, outputs):
"""
GATK TableRecalibration: write reads after base quality scores using the output of baseQualRecal.
'command': "java -Xmx7g -jar /vlsci/VR0245/shared/charlotte-working/programs/GenomeAnalysisTKLite-2.3-9-gdcdccbb/GenomeAnalysisTKLite.jar -T PrintReads -I %bam -R %ref -BQSR %csvfile -log %log -o %out"
"""
[[input_grp, _baseQualRecal_success], [input_bam]] = inputs
output_bam, flagFile = outputs
logFile = mkLogFile(pipeline_options.pipeline['logDir'], input_bam, '.baseQualRecalTabulate.log')
print "recalibrate base quality scores using GATK on %s" % input_bam
runStageCheck('baseQualRecalPrintReads', flagFile, input_bam, fasta_reference, input_grp, logFile, output_bam)
remove_GATK_bai(output_bam)
def realignIntervals(inputs, outputs):
"""
Run GATK RealignTargetCreator to find suspect intervals for realignment.
"""
bam, _success = inputs
output_intervals, flag_file = outputs
logFile = mkLogFile(logDir, bam, '.realignIntervals.log')
print "calculating realignment intervals for %s" % os.path.basename(bam)
runStageCheck('realignIntervals', flag_file, ref_files['fasta_reference'],
bam, ref_files['indels_realign_goldstandard'],
ref_files['indels_realign_1000G'], logFile, output_intervals)
def baseQualRecalTabulate(inputs, outputs):
"""
GATK TableRecalibration: recalibrate base quality scores using the output of CountCovariates.
"""
[input_csv, _success], [input_bam] = inputs
output_bam, flag_file = outputs
logFile = mkLogFile(logDir, input_bam, '.baseQualRecalTabulate.log')
print "recalibrate base quality scores using GATK on %s" % os.path.basename(
input_bam)
runStageCheck('baseQualRecalTabulate', flag_file, input_bam,
ref_files['fasta_reference'], input_csv, logFile, output_bam)
remove_GATK_bai(output_bam)
def getSnpeffAnnotations(inputs, outputs):
"""
Annotate vcf using snpeff variant effect predictor.
"""
print "Inputs: %s" % inputs
vcf, _idx, _success = inputs
#vcf, _success = inputs
output, flag_file = outputs
logFile = mkLogFile(logDir, vcf, '.snpEffAnnotation.log')
config = working_files['snpeff'] + "snpEff.config"
# print "Annotating %s with snpeff variant effect predictor" % os.path.basename(vcf)
runStageCheck('annotateSNPEff', flag_file, working_files['snpeff'], config, vcf, output)
def baseQualRecalCount(inputs, outputs):
"""
GATK CountCovariates, first step of base quality score recalibration.
"""
bam, _success = inputs
output_csv, flag_file = outputs
logFile = mkLogFile(logDir, bam, '.baseQualRecalCount.log')
print "count covariates using GATK for base quality score recalibration: %s" % os.path.basename(
bam)
runStageCheck('baseQualRecalCount', flag_file, bam,
ref_files['fasta_reference'], ref_files['dbsnp'], logFile,
output_csv)
def filterSnpSift(inputs, outputs):
"""
Filter Recalibrated variants.
"""
#print "Inputs: %s" % inputs
#print "Inputs: %s" % outputs
vcf, _success = inputs
#output, _idxout, flag_file = outputs
output, flag_file = outputs
logFile = mkLogFile(logDir, vcf, '.snpSiftFilter.log')
# config = working_files['snpeff'] + "snpEff.config"
# print "Annotating %s with snpeff variant effect predictor" % os.path.basename(vcf)
#runStageCheck('filterSnpSift', flag_file, working_files['snpeff'], config, vcf, output)
runStageCheck('filterSnpSift', flag_file, working_files['snpeff'], vcf, output)
