I am looking for a good workflows, readings or tutorial for SNP calling. I read some other posts on this topic, but I would like a more detailed explanation. Population genomics and sequence data are new to me (I have a general CS and biology background). It might just be me, but these tools are not as straightforward or as documented as I'd like. Any links or explanations would be good!

So far, my situation is as follows:

• I have Illumina sequence reads for a highly polymorphic species
• I aligned these reads using BWA against a reference genome with default parameters, but I am not sure if I should change parameters (if so, which ones?) due to the highly polymorphic data
• I am unsure of the next step, I will probably be using SAMtools or GATK... I tried making an mpile up but got really confused after that.
• I should also be accessing SNP quality..what tools are used for that? I already see some sequencing errors when browsing the data.

As you can tell, I am totally new with this. It is pretty exciting so I want to learn and be able to do some of these things! Thanks in advance.

edit: I also get so confused with some of the output, more detailed documentation on that would be nice as well!

GATK is certainly the best variant caller and it's the difference is important because with indels in particular, they can be hugely different.

I've spoken to a few people who have had issues with GATK so I've actually written a blog post with a workflow that works for GATK. The major issues seemed to be using GATK's best practices, particularly their add or replace read groups module which sometimes causes it to fall over later. By adding the read group (you can make it whatever you like) when you run bwa, then this workflow actually works.

This was written for microbes so ploidy is set to 1 for HaplotypeCaller, but this can be set to whatever you like (do check the documentation). Originally posted here(https://approachedinthelimit.wordpress.com/2015/10/09/variant-calling-with-gatk/)

• Dependencies:

You'll need to install picardtools, GATK, bwa and optionally, vcffilter for this workflow. Picardtools and GATK are simply .jar files so that's no problem while you probably already have bwa installed, otherwise installation is well documented!

• The workflow

This workflow begins with short read (fastq) files and a fasta reference. First a sequence dictionary is created, short reads are aligned to the reference and read group information provided, resulting sequence alignment map (sam) file sorted and converted to binary alignment map (bam) format, duplicates marked, bam file sorted, indel targets identified, indels realigned and variants called. Simple!

For simplicity an example set of commands are provided here, where the reference is reference.fasta and the short reads are R1.fastq.gz and R2.fastq.gz. You will need to enter the paths and versions of the software being used at each step and your actual file names.

Create sequence dictionary

java -jar~/bin/picard-tools-1.8.5/CreateSequenceDictionary.jar REFERENCE=reference.fasta OUTPUT=reference.dict

Align reads and assign read group

bwa mem -R "@RG\tID:FLOWCELL1.LANE1\tPL:ILLUMINA\tLB:test\tSM:PA01" reference.fasta R1.fastq.gz R2.fastq.gz > aln.sam

Sort sam file

java -jar ~/bin/picard-tools-1.8.5/SortSam.jar I=aln.sam O=sorted.bam SORT_ORDER=coordinate

Mark duplicates

java -jar ~/bin/picard-tools-version/MarkDuplicates.jar I=sorted.bam O=dedup.bam METRICS_FILE=metrics.txt

Sort bam file

java -jar ~/bin/picard-tools-version/BuildBamIndex.jar INPUT=dedup.bam

Create realignment targets

java -jar ~/bin/GATK3.3/GenomeAnalysisTK.jar -T RealignerTargetCreator -R reference.fasta -I dedup.bam -o targetintervals.list

Indel realignment

java -jar ~/bin/GATK3.3/GenomeAnalysisTK.jar -T IndelRealigner -R PA01.fasta -I dedup.bam -targetIntervals targetintervals.list -o realigned.bam

Call variants (HaplotypeCaller)

java -jar ~/bin/GATK3.3/GenomeAnalysisTK.jar -T HaplotypeCaller -R reference.fasta -I realigned.bam -ploidy 1 -stand_call_conf 30 -stand_emit_conf 10 -o raw.vcf

The resulting vcf file will contain your variant calls!

Then you can optionally filter the variants:

Filter variants

~/bin/vcflib/bin/vcffilter -f 'DP > 9' -f 'QUAL > 10' raw.vcf > filtered.vcf

Or first split the raw.vcf file into SNPs and indels:

Extract SNPs

java -jar ~/bin/GATK3.3/GenomeAnalysisTK.jar -T SelectVariants -R reference.fasta -V raw.vcf -selectType SNP -o snps.vcf

Extract Indels

java -jar ~/bin/GATK/GenomeAnalysisTK.jar -T SelectVariants -R reference.fasta -V raw.vcf -selectType INDEL -o indels.vcf

I also have a neat perl wrapper to automate this workflow over many short read files and would be happy to make this available if people are interested! Please do comment with any questions or issues and I'll do my best to resolve them!

• BWA using defaults it's probably OK.

• If you have a SAI file from the previous step, you need to convert it to SAM or BAM. Do something like (assuming your reference genome is hg37.fasta)

  bwa samse hg37.fasta s.sai s.fastq > s.sam

• Then, Create BAM file (we assume you installed SamTools)

  samtools view -S -b s.sam > s.bam

• Sort BAM file (will create s_sort.bam)

  samtools sort s.bam s_sort

• Call variants: I.e. Create VCF file (BcfTools is part of samtools distribution)

  samtools mpileup -uf hg37.fasta s_sort.bam | bcftools view -vcg - > s.vcf

There is a lot more (like local realignment, etc.). But if this is your first time doing it, you should start with the basics.

We are working on a SNP pipeline now. You might find my work in progress pipeline useful.

The pipeline currently starts with an alignment from BWA. It uses GATK for SNP calling.

Briefly, the flow involves:

• Realigning the BAM file using GATK's RealignerTargetCreator and IndelRealigner
• Optional recalibration step (we currently don't use)
• SNP calling using GATK's UnifiedGenotyper
• Indel calling using the UnifiedGenotyper
• basic filtering of the resulting VCF files
  • Right now we use some basic metrics to attempt to filer out low quality SNPs. I'm sure this step could be improved
• Annotate called and filtered SNPs
  • Currently we use a custom script to add gene / transcript / exon / intron and other information from Ensembl.
  • Recently (yesterday) I found snpEff from another BioStar discussion. We will be using it in the future for this kind of annotation.

We are still fleshing out the details on filtering and such, but it might be a good starting point to for executing GATK in a working order

I strongly recommend this recent article from authors of GATK.

It covers various aspect associated with SNP calling in detail. At the same time do refer the software manual/wiki for up-to-date options incorporated in the toolkit.

I have put together a tutorial website with four core tutorials on it, RNA-Seq, ChIP-Seq, Genome assembly, and SNP calling that may be of use to you.

This website was created to share bioinformatics tutorials.

Use GALAXY software. It is free and user friendly and u will get most of the step in oe programme only.

have a look at this course material from UT-Austin https://wikis.utexas.edu/display/bioiteam/SSC+Intro+to+NGS+Bioinformatics+Course

You might want to filter and explore your VCF file for different kinds of analyses (diversity, haplotypes, population structure). You can then make use of the online SNP pipeline: http://sniplay.southgreen.fr/cgi-bin/analysis_v3.cgi