Accelerating the alignment processing speed of the comprehensive end-to-end whole-genome bisulfite sequencing pipeline, wg-blimp

Abstract

Abstract Analyzing whole-genome bisulfite and related sequencing datasets is a time-intensive process due to the complexity and size of the input raw sequencing files and lengthy read alignment step requiring correction for conversion of all unmethylated Cs to Ts genome-wide. The objective of this study was to modify the read alignment algorithm associated with the whole-genome bisulfite sequencing methylation analysis pipeline (wg-blimp) to shorten the time required to complete this phase while retaining overall read alignment accuracy. Here, we report an update to the recently published pipeline wg-blimp achieved by replacing the use of the bwa-meth aligner with the faster gemBS aligner. This improvement to the wg-blimp pipeline has led to a more than ×7 acceleration in the processing speed of samples when scaled to larger publicly available FASTQ datasets containing 80–160 million reads while maintaining nearly identical accuracy of properly mapped reads when compared with data from the previous pipeline. The modifications to the wg-blimp pipeline reported here merge the speed and accuracy of the gemBS aligner with the comprehensive analysis and data visualization assets of the wg-blimp pipeline to provide a significantly accelerated workflow that can produce high-quality data much more rapidly without compromising read accuracy at the expense of increasing RAM requirements up to 48 GB.