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A simple bioinformatics workflow to identify single nucleotide polymorphism (SNP) from Genotyping-by-Sequencing (GBS) data.

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Previously known as HOMEBREW, developed by Rudiger Brauning.

Overview

Existing SNP calling pipelines often come with built-in filtering processes, which can introduce systematic bias. Each method has its own algorithm to identify and define SNPs, it can lead to moderate to large variations in final outputs. A simple, intuitive and consistent bioinformatics workflow is thus needed for developing new analytical methods.

Here we present snpGBS, a simple three-step approach to identify SNPs from GBS data:

Step One: Demultiplexing

We use cutadapt to demultiplex the raw GBS data (i.e. .fastq or .fastq.gz file). More information about cutadapt: https://cutadapt.readthedocs.io/en/stable/guide.html#demultiplexing

## 1.1 trimming common adapter
cutadapt -j 8 -a common_adapter=AGATCGGAAGAGCGGTTCAGCAGGAATGCCGAG -o example.trimmed.fastq example.fastq >01.trimmed.stdout 2>01.trimmed.stderr

## 1.2 demultiplexing
cutadapt -j 8 -e 0 --no-indels -g file:barcodes.fasta -o "demultiplexed_{name}.fastq.gz" example.trimmed.fastq >01.demultiplexed.stdout 2>01.demultiplexed.stderr

Step Two: Mapping

We use bowtie2 to align and map GBS reads. More information about bowtie2: http://bowtie-bio.sourceforge.net/bowtie2/manual.shtml

## 2.1 indexing genome
bowtie2-build ref.fa example >index.stdout 2>index.stderr

## 2.2 alignment
for i in ./demultiplexed_barcode*.fastq.gz
 do
    echo $i;
    bowtie2 --very-fast-local -x example -U $i -S ./${i##*/}.sam 2>./${i##*/}.bowtie2.stdout;
done

Step Three: SNP Calling

We use bcftools-mpileup to identify SNPs. More information about bcftools-mpileup: http://www.htslib.org/doc/bcftools.html#mpileup

## convert SAM to BAM
## 3.1 convert SAM to BAM
for i in *.sam;
  do
    echo $i;
    samtools view -bS $i > "${i%.sam}.bam";
done

## 3.2 sort bam
for i in *.bam;
  do
    echo $i;
    samtools sort $i -o "${i%.bam}.sorted.bam";
done

## 3.3 create bamlist
for i in *.sorted.bam;
  do
    echo $i;
done > bamlist;


## 3.4 calling SNPs
bcftools mpileup -I -Ou -f ref.fa -b bamlist -a AD | bcftools call -cv - | bcftools view -M2 - >example.vcf

Required Input

Demultiplexing

  • Raw GBS data (e.g. example.fastq)

  • Barcode sequences (e.g. barcodes.fasta)

    createBarcodeFASTA.sh is provided to convert barcodes.txt to barcodes.fasta as below

    #!/bin/bash
    filename='barcodes.txt'
    n=0
    while read line; do
     echo ">barcode$n"
     echo "^$line"
     n=$((n+1))
    done < $filename

Mapping

  • Reference genome (e.g.ref.fa)

SNP Calling

  • Nil

Example

To help users with testing snpGBS, we put together an example with the following files

Output

Here's a list of expected outputs

Citation

If you use snpGBS, please cite

  • Kang, J., Dodds, K., Byrne, S., Faville, M., Black, M., Hess, A., Hess, M., McCulloch, A., Jacobs, J., Milbourne, D., Wilcox, P., & Brauning, R. (n.d.). snpGBS: A Simple and Flexible Bioinformatics Workflow to Identify SNPs from Genotyping-by-Sequencing Data. In Exploiting genetic diversity of forages to fulfil their economic and environmental roles: Proceedings of the 2021 Meeting of the Fodder Crops and Amenity Grasses Section of EUCARPIA. Exploiting genetic diversity of forages to fulfil their economic and environmental roles. Univerzita Palackého v Olomouci. https://doi.org/10.5507/vup.21.24459677.16

What's Next?

  • KGD: R code for the analysis of genotyping-by-sequencing (GBS) data, primarily to construct a genomic relationship matrix for the genotyped individuals.

  • GUSLD: An R package for estimating linkage disequilibrium using low and/or high coverage sequencing data without requiring filtering with respect to read depth.

  • SMAP a software package that analyzes read mapping distributions and performs haplotype calling to create multi-allelic molecular markers.

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A simple bioinformatics workflow to identify single nucleotide polymorphism (SNP) from Genotyping-by-Sequencing (GBS) data.

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