SNP calling exercise part 2 answers

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Revision as of 16:28, 15 December 2024 by Gabre (talk | contribs) (Created page with "'''Q1''' First, running: <pre> tabix -f -p vcf NA24694.gvcf.gz </pre> then <pre> gatk --java-options "-Xmx10g" HaplotypeCaller -R /home/databases/references/human/GRCh38_full_analysis_set_plus_decoy_hla.fa -I /home/projects/22126_NGS/exercises/snp_calling/NA24694.bam -L chr20 -O NA24694.gvcf.gz --dbsnp /home/databases/databases/GRCh38/Homo_sapiens_assembly38.dbsnp138.vcf.gz -ERC GVCF </pre> <pre> gatk GenotypeGVCFs -R /home/databases/references/human/GRCh3...")
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Q1

First, running:

tabix -f -p vcf NA24694.gvcf.gz

then

gatk --java-options "-Xmx10g" HaplotypeCaller    -R /home/databases/references/human/GRCh38_full_analysis_set_plus_decoy_hla.fa    -I /home/projects/22126_NGS/exercises/snp_calling/NA24694.bam  -L chr20  -O NA24694.gvcf.gz  --dbsnp  /home/databases/databases/GRCh38/Homo_sapiens_assembly38.dbsnp138.vcf.gz  -ERC GVCF 
gatk  GenotypeGVCFs -R /home/databases/references/human/GRCh38_full_analysis_set_plus_decoy_hla.fa -V NA24694.gvcf.gz  -L chr20 --dbsnp  /home/databases/databases/GRCh38/Homo_sapiens_assembly38.dbsnp138.vcf.gz -O NA24694.vcf.gz
bcftools stats  NA24694.vcf.gz

Should give you:

SN	0	number of SNPs:	75684

so 75684 SNPs.


Q2

First run:

tabix -p vcf NA24694.vcf.gz

Then:

tabix  NA24694.vcf.gz chr20:32000000-33000000 |wc -l

So 1290 variant sites.

Q3

There are 2 ways to do this:

bcftools view -H --type=snps NA24694.vcf.gz  chr20:32000000-33000000 |wc -l 

or

tabix -h NA24694.vcf.gz chr20:32000000-33000000 |bcftools view -H --type=snps -  |wc -l

Both will give you: 956.


Q4


tabix NA24694.vcf.gz  chr20:32011209-32011209

You get:

chr20	32011209	rs147652161	G	A	264.64	.	AC=1;AF=0.500;AN=2;BaseQRankSum=-3.010e-01;DB;DP=24;ExcessHet=3.0103;FS=3.949;MLEAC=1;MLEAF=0.500;MQ=60.00;MQRankSum=0.00;QD=11.03;ReadPosRankSum=-3.580e-01;SOR=0.552	GT:AD:DP:GQ:PL	0/1:15,9:24:99:272,0,533

The line above says that you probably have G and A and the site is heterozygous. G is the reference and A the alternative allele. The allele depth is 15Gs, 9As, the depth is 24, the genotype quality is 99, the PHRED genotype likelihoods are homo ref, hetero, homo alt: 272,0,533

tabix NA24694.vcf.gz  chr20:32044279-32044279

You get:

chr20	32044279	rs4525768	C	T	799.06	.	AC=2;AF=1.00;AN=2;DB;DP=21;ExcessHet=3.0103;FS=0.000;MLEAC=2;MLEAF=1.00;MQ=60.00;QD=28.99;SOR=0.990	GT:AD:DP:GQ:PL	1/1:0,21:21:63:813,63,0

The line above says that you are probably homozygous for T. C is the reference and T the alternative allele. The allele depth is 0Cs, 21Ts, the depth is 21, the genotype quality is 63, the PHRED genotype likelihoods are homo ref, hetero, homo alt: 813,63,0.


Q5

Both are heterozygous sites however this is the better one:

chr20	32974911	rs6088051	A	G	403.64	.	AC=1;AF=0.500;AN=2;BaseQRankSum=0.693;DB;DP=22;ExcessHet=3.0103;FS=0.000;MLEAC=1;MLEAF=0.500;MQ=59.78;MQRankSum=-6.860e-01;QD=19.22;ReadPosRankSum=-1.703e+00;SOR=0.871	GT:AD:DP:GQ:PL	0/1:8,13:21:99:411,0,247

and the worse one:

chr20	64291638	rs369221086	C	T	30.64	.	AC=1;AF=0.500;AN=2;BaseQRankSum=-2.530e-01;DB;DP=6;ExcessHet=3.0103;FS=0.000;MLEAC=1;MLEAF=0.500;MQ=28.18;MQRankSum=-9.670e-01;QD=5.11;ReadPosRankSum=-8.420e-01;SOR=0.693	GT:AD:DP:GQ:PL	0/1:4,2:6:38:38,0,114

The first site has a depth of 21, 8As and 13Gs. In the second case, the genotype quality is 38 and the first was 99. The second one only has 4Cs and 2 Ts for a total depth of 6 which is not sufficient to confidently call a heterozygous site.


Q6

Either use:

bcftools view -H --types=snps  NA24694.vcf.gz chr20:32000000-33000000 |cut -f 3 |grep -v rs |wc -l

or

bcftools view -H --types=snps  NA24694.vcf.gz chr20:32000000-33000000 |cut -f 3 |grep "\." |wc -l

you will get 17.


Q7

17 is very little compared to the number of SNPs 956. However, this is very expected. Given that the individual is Han Chinese, this ethnic group is very well represented in dbSNP.

mkdir var_recal/
gatk --java-options "-Xmx10G"   VariantRecalibrator -V NA24694.vcf.gz    --rscript-file var_recal/NA24694_plots.R -O var_recal/NA24694_recal  -mode SNP --tranches-file var_recal/NA24694_tranches   -tranche 99.0  -tranche 95.0 -tranche 90.0  -tranche 85.0 -tranche 80.0 -tranche 75.0 -tranche 70.0 -tranche 65.0 -tranche 60.0 -tranche 58.0  -an QD -an DP -an FS  -an MQRankSum -an ReadPosRankSum -an SOR -an MQ  -resource:hapmap,known=false,training=true,truth=true,prior=15.0 /home/databases/databases/GRCh38/hapmap_3.3.hg38.vcf.gz   -resource:omni,known=false,training=true,truth=false,prior=12.0 /home/databases/databases/GRCh38/1000G_omni2.5.hg38.vcf.gz   -resource:1000G,known=false,training=true,truth=false,prior=10.0 /home/databases/databases/GRCh38/1000G_phase1.snps.high_confidence.hg38.vcf.gz    -resource:dbsnp,known=true,training=false,truth=false,prior=2.0 /home/databases/databases/GRCh38/Homo_sapiens_assembly38.dbsnp138.vcf.gz 


Q8

Either 60 or 65 should be good.

 gatk --java-options "-Xmx10G" ApplyVQSR -V NA24694.vcf.gz  -O NA24694_sf.vcf.gz --recal-file var_recal/NA24694_recal  --tranches-file var_recal/NA24694_tranches  -truth-sensitivity-filter-level 65 --create-output-variant-index true  -mode SNP

Q9

Let us not forget to index:

tabix -p  vcf NA24694_sf_pass.vcf.gz

Then run:

bcftools view -H --types=snps  NA24694_sf_pass.vcf.gz  chr20:32000000-33000000 |wc -l

For a total of filtered 416 SNPs which is much less of them before.

Q10

If you are more sensitive then you will let more sites through and the number would increase.


Q11

First running:

gatk VariantFiltration     -V NA24694.vcf.gz  -O NA24694_hf.vcf.gz   -filter "DP < 10.0" --filter-name "DP"    -filter "QUAL < 30.0" --filter-name "QUAL30"     -filter "SOR > 3.0" --filter-name "SOR3"     -filter "FS > 60.0" --filter-name "FS60"     -filter "MQ < 40.0" --filter-name "MQ40"      
  

and

 bcftools view  -H NA24694_hf.vcf.gz |grep -v PASS |wc -l 

Gives us 4005 sites.

 bcftools view  -H  --type=snps NA24694_hf.vcf.gz |grep -v PASS |wc -l 

2630 SNPs


Q12

One possibility is:

 bcftools view -H NA24694_hf.vcf.gz |grep -v PASS |cut -f 7  |sort |uniq -c  |sort -n 
      5 FS60;SOR3
     30 DP;MQ40;SOR3
     74 MQ40;SOR3
    158 DP;SOR3
    197 DP;MQ40
    390 MQ40
   1340 SOR3
   1811 DP

This says remove all lines with the string "PASS", extract the seventh column, sort them, unique and count them, sort again but according to numerical order. At the bottom, you have the most used filter which is depth of coverage.

Q13

Initially, we isolate the ones that pass the filter:

bcftools view  -f PASS NA24694_hf.vcf.gz |bgzip -c  > NA24694_hf_pass.vcf.gz
bcftools view -H NA24694_hf_pass.vcf.gz |wc -l 

88594 total sites (SNPS+indels+multi-allelic).

Then we retain the sites using bedtools:

bedtools intersect -header -a  NA24694_hf_pass.vcf.gz  -b /home/databases/databases/GRCh38/filter99.bed.gz |bgzip -c > NA24694_hf_map99.vcf.gz
bcftools view -H NA24694_hf_map99.vcf.gz |wc -l 

51624 total sites remain


Q14 Using:

java -jar /home/ctools/snpEff/snpEff.jar  eff  -dataDir /home/databases/databases/snpEff/  -htmlStats NA24694_hf.html GRCh38.99 NA24694_hf.vcf.gz  |bgzip -c > NA24694_hf_ann.vcf.gz

In the HTML file you see: Intron 64.368%

Q15 In the HTML file you see:

MISSENSE 584 44.242%

So a total of 584 detecting mutations can have an impact on the protein sequence.