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Commit c8a04e87 authored by Shaman Narayanasamy's avatar Shaman Narayanasamy
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Add Analysis MG.rules

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rule ANALYSIS_ANNOTATE:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_ANNOTATE.json" % AN_OUT
input:
'{dir}/MG.assembly.merged.fa'.format(dir=A_OUT),
expand("{path}/{db}", path=DBPATH, db=config["prokka"]["databases"])
output:
"%s/annotation/annotation.filt.gff" % AN_OUT
shell:
"""
prokka --force --outdir {AN_OUT}/annotation --cpus {THREADS} --metagenome --norrna {input[0]} >> {log} 2>&1
# Prokka gives a weird gff file with all the sequences. We need to write some small code to produce a file that
# cleans up the output
LN=`grep -Hn "^>" {AN_OUT}/annotation/PROKKA_*.gff | head -n1 | cut -f2 -d ":"`
LN1=1
LN=$(($LN-$LN1))
head -n $LN {AN_OUT}/annotation/*.gff | grep -v "^#" | sort | uniq | grep -v "^==" > {output}
"""
rule ANALYSIS_MG_GENE_COVERAGE:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_MG_GENE_COVERAGE.json" % AN_OUT
input:
"%s/annotation/annotation.filt.gff" % AN_OUT,
"%s/MG.reads.sorted.bam" % A_OUT
output:
"%s/MG.annotation.bed" % AN_OUT,
"%s/MG.gene_depth.hist" % AN_OUT,
"%s/MG.gene_depth.avg" % AN_OUT,
"%s/MG.gene.len" % AN_OUT,
"%s/MG.prokkaID2ec.txt" % AN_OUT
shell:
"""
coverageBed -hist -abam {input[1]} -b {input[0]} | grep -v "^all" > {output[0]}
paste <(cat {output[0]} | cut -f9 | cut -f1 -d \";\" | sed -e \"s/ID=//g\") \
<(cut -f10,11,12,13 {output[0]}) > {output[1]}
## This code was adapted and modified from the CONCOCT script to calculate depth
## It prints out a file that contains the average depth of all the genes
awk -v OFS='\t' 'BEGIN {{pc=""}}
{{
c=$1;
if (c == pc) {{
cov=cov+$2*$5;
}} else {{
print pc,cov;
cov=$2*$5;
pc=c
}}
}} END {{print pc,cov}}' < {output[1]} | tail -n +2 > {output[2]}
# Record gene length file
cut -f 1,4 {output[1]} | uniq > {output[3]}
grep "eC_number=" {input[0]} | cut -f9 | cut -f1,2 -d ';'| sed 's/ID=//g'| sed 's/;eC_number=/\t/g' > {output[4]}
"""
rule ANALYSIS_MG_VARIANT_CALLING:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_MG_VARIANT_CALLING.json" % AN_OUT
input:
"%s/MG.assembly.merged.fa" % A_OUT,
"%s/MG.reads.sorted.bam" % A_OUT,
output:
"%s/MG.variants.isec.vcf.gz" % AN_OUT
shell:
"""
echo "[x] VARIANT CALLING `date +"%Y/%m/%d %H:%M:%S"`"
if [[ ! -f {input[1]}.bai ]]
then
echo "Bam index doesn't exist, Creating one..."
echo "Indexing bam: {input[1]}"
samtools index {input[1]}
fi
if [[ ! -f {input[0]}.fai ]]
then
echo "Fasta index doesn't exist, Creating one..."
echo "Indexing fasta: {input[0]}"
samtools faidx {input[0]}
fi
#temporary directory and files
VCF_MPU=$(mktemp --tmpdir={TMPDIR} -t "XXXXXX.mpu.vcf")
VCF_FRB=$(mktemp --tmpdir={TMPDIR} -t "XXXXXX.frb.vcf")
VCF_PLT=$(mktemp --tmpdir={TMPDIR} -t "XXXXXX.plt.vcf")
### run_mpileup {input[0]} {input[1]} $VCF_MPU
samtools mpileup -uf {input[0]} {input[1]} | bcftools view -vcg - > $VCF_MPU
bgzip -c $VCF_MPU > $VCF_MPU.gz
tabix -f -p vcf $VCF_MPU.gz
### run_freebayes {input[0]} {input[1]} $VCF_FRB
freebayes -f {input[0]} {input[1]} > $VCF_FRB
bgzip -c $VCF_FRB > $VCF_FRB.gz
tabix -f -p vcf $VCF_FRB.gz
### run_platypus {input[0]} {input[1]} $VCF_PLT
Platypus.py callVariants --refFile={input[0]} --bamFiles={input[1]} --nCPU={THREADS} -o $VCF_PLT
bgzip -c $VCF_PLT > $VCF_PLT.gz
tabix -f -p vcf $VCF_PLT.gz
### "Merging outputs "
## Must remove colons from the contig names in upstream steps. Unable to merge the variants
## due to this problem
vcf-isec -f -a -n +2 $VCF_PLT.gz $VCF_FRB.gz $VCF_MPU.gz > {AN_OUT}/MG.variants.isec.vcf
# Compress and index the output.
bgzip -c {AN_OUT}/MG.variants.isec.vcf > {AN_OUT}/MG.variants.isec.vcf.gz
tabix -f -p vcf {AN_OUT}/MG.variants.isec.vcf.gz
# Clean up directory
echo "Cleaning up directory"
cat log.txt >> {log}
rm -f {AN_OUT}/MG.variants.isec.vcf log.txt
"""
rule ANALYSIS_MG_CONTIG_LENGTH:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_MG_CONTIG_LENGTH.json" % AN_OUT
input:
"%s/MG.assembly.merged.fa" % A_OUT,
output:
"%s/MG.assembly.length.txt" % AN_OUT,
"%s/MG.assembly.gc_content.txt" % AN_OUT,
shell:
"""
echo "[x] LENGTH `date +"%Y/%m/%d %H:%M:%S"`" >> {log}
echo "Obtaining contig lengths"
perl {SRCDIR}/fastaNamesSizes.pl {input} > {output[0]}
echo "Obtaining GC content"
TMP_GC=$(mktemp --tmpdir={TMPDIR} -t "gc_out_XXXXXX.txt")
perl {SRCDIR}/get_GC_content.pl {input} $TMP_GC
# Th program above provides a file gc_out.txt. This command cleans the output
echo "Clean up output"
cut -f1,2 $TMP_GC | sed -e 's/>//g'> {output[1]}
echo "Remove intermediate files"
rm $TMP_GC
"""
rule ANALYSIS_MG_CONTIG_COVERAGE:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_MG_CONTIG_COVERAGE.json" % AN_OUT
input:
"%s/MG.reads.sorted.bam" % A_OUT,
"%s/MG.assembly.merged.fa" % A_OUT,
output:
"%s/MG.assembly.contig_coverage.txt" % AN_OUT,
"%s/MG.assembly.contig_depth.txt" % AN_OUT,
"%s/MG.assembly.contig_flagstat.txt" % AN_OUT,
shell:
"""
echo "[x] COVERAGE AND DEPTH `date +"%Y/%m/%d %H:%M:%S"`" >> {log}
echo "Creating genome file ..." >> {log}
if [[ ! -f {input[1]}.fai ]]
then
echo "No fasta index! Creating one." >> {log}
samtools faidx {input[1]}
fi
cat {input[1]}.fai | awk '{{print $1 \"\t0\t\" $2}}' > {input[1]}.bed3
echo "Done creating bed file" >> {log}
echo "Running BEDTools coverage calculation ..." >> {log}
coverageBed -abam {input[0]} -b {input[1]}.bed3 > {output[0]}
echo "Coverage calculation done" >> {log}
echo "Running BEDTools for average depth in each position" >> {log}
TMP_DEPTH=$(mktemp --tmpdir={TMPDIR} -t "depth_file_XXXXXX.txt")
genomeCoverageBed -ibam {input[0]} | grep -v "genome" > $TMP_DEPTH
echo "Depth calculation done" >> {log}
## This method of depth calculation was adapted and modified from the CONCOCT code
awk -v OFS='\t' 'BEGIN {{pc=""}}
{{
c=$1;
if (c == pc) {{
cov=cov+$2*$5;
}} else {{
print pc,cov;
cov=$2*$5;
pc=c}}
}} END {{print pc,cov}}' $TMP_DEPTH | tail -n +2 > {output[1]}
echo "Remove the temporary file" >> {log}
rm $TMP_DEPTH
echo "flagstat" >> {log}
samtools flagstat {input[0]} | cut -f1 -d ' ' > {output[2]}
"""
def mg_fqfiles():
raw = expand('{dir}/{raw}', raw=['MG.R1.fq', 'MG.R2.fq'], dir=P_OUT)
uniq = expand('{dir}/{uniq}', uniq=['MG.R1.uniq.fq', 'MG.R2.uniq.fq'], dir=P_OUT)
trim = expand('{dir}/{trim}', trim=[
'MG.R1.uniq.trimmed.fq',
'MG.R2.uniq.trimmed.fq',
'MG.SE.uniq.trimmed.fq'], dir=P_OUT)
filter = expand('{dir}/{filter}', filter=expand([
'MG.R1.uniq.trimmed.{f}.fq',
'MG.R2.uniq.trimmed.{f}.fq',
'MG.SE.uniq.trimmed.{f}.fq'], f=config['human_filtering']['filter']), dir=P_OUT)
if config['preprocessing_filtering']:
return raw + uniq + trim + filter
return raw + uniq + trim
rule ANALYSIS_MG_READ_COUNT:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_MG_READ_COUNT.json" % AN_OUT
input:
mg_fqfiles()
output:
'%s/MG.read_counts.txt' % AN_OUT
run:
for idx, f in enumerate({input}):
if idx == 0:
shell("wc -l {f} > {output}")
else:
shell("wc -l {f} >> {output}")
rule ANALYSIS_VIZBIN:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_VIZBIN.json" % AN_OUT
input:
"%s/MG.assembly.merged.fa" % A_OUT,
output:
"%s/MG.vizbin.points" % AN_OUT,
"%s/MG.vizbin.filtered.fa" % AN_OUT,
"%s/MG.vizbin.with-contig-names.points" % AN_OUT
shell:
"""
TMP_VIZBIN=$(mktemp --tmpdir={TMPDIR} -dt "VIZBIN_XXXXXX")
# tools used in this script: they must be in the PATH
VIZBIN={SRCDIR}/vizbin.py
echo "[x] VIZBIN `date +"%Y/%m/%d %H:%M:%S"`" >> {log}
python $VIZBIN {input} {AN_OUT}/MG.vizbin {config[vizbin][dimension]} \
-l {config[vizbin][length]} \
-s {config[vizbin][size]} \
-t {config[vizbin][theta]} \
-p {config[vizbin][perp]} \
-f {config[vizbin][minlen]} \
-o {output[1]} >> {log}
cp {AN_OUT}/MG.vizbin.{config[vizbin][dimension]}.dat $TMP_VIZBIN/data.dat
BACK=$PWD
cd $TMP_VIZBIN
bh_tsne >> $BACK/{log}
cd $BACK
cp $TMP_VIZBIN/points.txt {AN_OUT}/MG.vizbin.points
rm -rf $TMP_VIZBIN
grep '^>' {output[1]} | sed 's/>//g' > {AN_OUT}/MG.vizbin.contigs
paste {AN_OUT}/MG.vizbin.contigs {output[0]} | sed -e 's/,/\t/g' > {output[2]}
"""
def analysis_plot_files_output():
return expand('{dir}/{name}', name=[
"IMP-reads_density.png",
"IMP-rpkm_density.png",
"IMP-coverage_density.png",
"IMP-depth_density.png",
"IMP-var_count.png",
"IMP-var_density.png",
"IMP-vizbin_length.png",
"IMP-vizbin_length_GC.png",
"IMP-vizbin_length_MGcov.png",
"IMP-vizbin_length_MGdepth.png",
"IMP-vizbin_length_MGvardens.png",
"IMP-vizbin_length_geneDensity.png",
"IMP-vizbin_standard.png",
"MG.read_stats.html",
"MG.read_stats.txt",
"MG_mapping_stats.html",
"MG_mapping_stats.txt",
"assembly_stats.html",
"assembly_stats.txt"], dir='%s/results' % AN_OUT)
def analysis_stats_files_output():
return expand([
'{dir}/{stat_flag}/{rtype}/cycle_composition_{n}.{ext}',
'{dir}/{stat_flag}/{rtype}/cycle_quality_{n}.{ext}',
'{dir}/{stat_flag}/{rtype}/cycle_quality_box_{n}.{ext}',
'{dir}/{stat_flag}/{rtype}/info.tab',
'{dir}/{stat_flag}/{rtype}/lane_tile_quality_{n}.{ext}',
'{dir}/{stat_flag}/{rtype}/quality_QQ.{ext}',
'{dir}/{stat_flag}/{rtype}/reads_length.{ext}',
'{dir}/{stat_flag}/{rtype}/reads_quality.{ext}'],
n = ['1', '2'],
ext = ['gnuplot', 'png', 'tab'],
dir = P_OUT,
stat_flag = ['stats', 'stats_after_preprocessing'],
rtype = ['MG'])
rule ANALYSIS_PLOT:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_PLOT.json" % AN_OUT
input:
expand('{dir}/{name}', name=[
'MG.read_counts.txt',
'MG.assembly.contig_flagstat.txt',
'MG.assembly.contig_coverage.txt',
'MG.assembly.contig_depth.txt',
'MG.variants.isec.vcf.gz',
'MG.assembly.gc_content.txt',
"MG.vizbin.with-contig-names.points",
"annotation/annotation.filt.gff"], dir=AN_OUT)
output:
analysis_plot_files_output()
params:
outdir = "%s/results" % AN_OUT
shell:
"""
PLOT_SCRIPT="{SRCDIR}/IMP_visualize_MG.R"
echo "[x] PLOT `date +"%Y/%m/%d %H:%M:%S"`" >> {log}
mkdir -p {AN_OUT}/results
Rscript $PLOT_SCRIPT {AN_OUT}/results {input}
"""
rule ANALYSIS_KRONA_PLOT_MG:
log:
AN_LOG
benchmark:
"%s/benchmarks/ANALYSIS_KRONA_PLOT.json" % AN_OUT
input:
"%s/MG.prokkaID2ec.txt" % AN_OUT,
"%s/ec2pwy.txt" % U_OUT,
"%s/pwy2hierarchy.txt" % U_OUT,
"%s/MG.gene_depth.avg" % AN_OUT,
"%s/MG.gene.len" % AN_OUT
output:
"%s/results/MG.gene_kegg_krona.txt" % AN_OUT,
"%s/results/MG.gene_kegg_krona.html" % AN_OUT
shell:
"""
echo "[x] PLOT KRONA `date +"%Y/%m/%d %H:%M:%S"`" >> {log}
echo {input}
echo {output[0]}
python {SRCDIR}/genes.to.kronaTable.py -i {input[0]} -H {input[1]} -m {input[2]} -c {input[3]} -L {input[4]} -o {output[0]}
ktImportText -o {output[1]} {output[0]}
"""
rule ANALYSIS_MG_QUALITY_STATS:
input:
expand('{dir}/{raw}', raw=['MG.R1.fq', 'MG.R2.fq'], dir=P_OUT)
output:
expand(['{dir}/cycle_composition_{n}.{ext}',
'{dir}/cycle_quality_{n}.{ext}',
'{dir}/cycle_quality_box_{n}.{ext}',
'{dir}/info.tab',
'{dir}/lane_tile_quality_{n}.{ext}',
'{dir}/quality_QQ.{ext}',
'{dir}/reads_length.{ext}',
'{dir}/reads_quality.{ext}'
], n=['1', '2'], ext=['gnuplot', 'png', 'tab'], dir='%s/stats/MG' % P_OUT)
benchmark:
"%s/benchmarks/PREPROCESSING_MG_QUALITY_STATS.json" % P_OUT
log:
P_LOG
shell:
"""
ht2-stat --encode=sanger -q -P -t {THREADS} -o {P_OUT}/stats/MG -i {input} >> {log} 2>&1
ht2-stat-draw.pl --dir {P_OUT}/stats/MG >> {log} 2>&1
"""
rule ANALYSIS_MG_PREPROCESSED_QUALITY_STATS:
log:
P_LOG
input:
expand('{dir}/{trim}', trim=[
'MG.R1.uniq.trimmed.fq',
'MG.R2.uniq.trimmed.fq'], dir=P_OUT)
output:
expand(['{dir}/cycle_composition_{n}.{ext}',
'{dir}/cycle_quality_{n}.{ext}',
'{dir}/cycle_quality_box_{n}.{ext}',
'{dir}/info.tab', '{dir}/lane_tile_quality_{n}.{ext}',
'{dir}/quality_QQ.{ext}',
'{dir}/reads_length.{ext}',
'{dir}/reads_quality.{ext}'
], n=['1', '2'], ext=['gnuplot', 'png', 'tab'], dir='%s/stats_after_preprocessing/MG' % P_OUT)
shell:
"""
ht2-stat --encode=sanger -q -P -t {THREADS} -o {P_OUT}/stats_after_preprocessing/MG -i {input} >> {log} 2>&1
ht2-stat-draw.pl --dir {P_OUT}/stats_after_preprocessing/MG >> {log} 2>&1
"""
benchmark:
"%s/benchmarks/PREPROCESSING_MG_PREPROCESSED_QUALITY_STATS.json" % P_OUT
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