(howto) Recalibrate base quality scores = run BQSR
Posted in Tutorials | Last updated on 2013-07-17 22:27:07


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Objective

Recalibrate base quality scores in order to correct sequencing errors and other experimental artifacts.

Prerequisites

  • TBD

Steps

  1. Analyze patterns of covariation in the sequence dataset
  2. Do a second pass to analyze covariation remaining after recalibration
  3. Generate before/after plots
  4. Apply the recalibration to your sequence data

1. Analyze patterns of covariation in the sequence dataset

Action

Run the following GATK command:

java -jar GenomeAnalysisTK.jar \ 
    -T BaseRecalibrator \ 
    -R reference.fa \ 
    -I realigned_reads.bam \ 
    -L 20 \ 
    -knownSites dbsnp.vcf \ 
    -knownSites gold_indels.vcf \ 
    -o recal_data.table 

Expected Result

This creates a GATKReport file called recal_data.grp containing several tables. These tables contain the covariation data that will be used in a later step to recalibrate the base qualities of your sequence data.

It is imperative that you provide the program with a set of known sites, otherwise it will refuse to run. The known sites are used to build the covariation model and estimate empirical base qualities. For details on what to do if there are no known sites available for your organism of study, please see the online GATK documentation.


2. Do a second pass to analyze covariation remaining after recalibration

Action

Run the following GATK command:

java -jar GenomeAnalysisTK.jar \ 
    -T BaseRecalibrator \ 
    -R reference.fa \ 
    -I realigned_reads.bam \ 
    -L 20 \ 
    -knownSites dbsnp.vcf \ 
    -knownSites gold_indels.vcf \ 
    -BQSR recal_data.table \ 
    -o post_recal_data.table 

Expected Result

This creates another GATKReport file, which we will use in the next step to generate plots. Note the use of the -BQSR flag, which tells the GATK engine to perform on-the-fly recalibration based on the first recalibration data table.


3. Generate before/after plots

Action

Run the following GATK command:

java -jar GenomeAnalysisTK.jar \ 
    -T AnalyzeCovariates \ 
    -R reference.fa \ 
    -L 20 \ 
    -before recal_data.table \
    -after post_recal_data.table \
    -plots recalibration_plots.pdf

Expected Result

This generates a document called recalibration_plots.pdf containing plots that show how the reported base qualities match up to the empirical qualities calculated by the BaseRecalibrator. Comparing the before and after plots allows you to check the effect of the base recalibration process before you actually apply the recalibration to your sequence data. For details on how to interpret the base recalibration plots, please see the online GATK documentation.


4. Apply the recalibration to your sequence data

Action

Run the following GATK command:

java -jar GenomeAnalysisTK.jar \ 
    -T PrintReads \ 
    -R reference.fa \ 
    -I realigned_reads.bam \ 
    -L 20 \ 
    -BQSR recal_data.table \ 
    -o recal_reads.bam 

Expected Result

This creates a file called recal_reads.bam containing all the original reads, but now with exquisitely accurate base substitution, insertion and deletion quality scores. By default, the original quality scores are discarded in order to keep the file size down. However, you have the option to retain them by adding the flag –emit_original_quals to the PrintReads command, in which case the original qualities will also be written in the file, tagged OQ.

Notice how this step uses a very simple tool, PrintReads, to apply the recalibration. What’s happening here is that we are loading in the original sequence data, having the GATK engine recalibrate the base qualities on-the-fly thanks to the -BQSR flag (as explained earlier), and just using PrintReads to write out the resulting data to the new file.


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