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NGmerge: merging paired-end reads via novel empirically-derived models of sequencing errors
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NGmerge: merging paired-end reads via novel empirically-derived models of sequencing errors
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Journal Article
NGmerge: merging paired-end reads via novel empirically-derived models of sequencing errors
2018
Overview
Background
Advances in Illumina DNA sequencing technology have produced longer paired-end reads that increasingly have sequence overlaps. These reads can be merged into a single read that spans the full length of the original DNA fragment, allowing for error correction and accurate determination of read coverage. Extant merging programs utilize simplistic or unverified models for the selection of bases and quality scores for the overlapping region of merged reads.
Results
We first examined the baseline quality score - error rate relationship using sequence reads derived from PhiX. In contrast to numerous published reports, we found that the quality scores produced by Illumina were not substantially inflated above the theoretical values, once the reference genome was corrected for unreported sequence variants. The PhiX reads were then used to create empirical models of sequencing errors in overlapping regions of paired-end reads, and these models were incorporated into a novel merging program, NGmerge. We demonstrate that NGmerge corrects errors and ambiguous bases better than other merging programs, and that it assigns quality scores for merged bases that accurately reflect the error rates. Our results also show that, contrary to published analyses, the sequencing errors of paired-end reads are not independent.
Conclusions
We provide a free and open-source program, NGmerge, that performs better than existing read merging programs. NGmerge is available on GitHub (
https://github.com/harvardinformatics/NGmerge
) under the MIT License; it is written in C and supported on Linux.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Analysis
/ Biomedical and Life Sciences
/ Cancer
/ Computational Biology/Bioinformatics
/ Computer Appl. in Life Sciences
/ DNA
/ Error correction & detection
/ Genomes
/ High-Throughput Nucleotide Sequencing - methods
/ Humans
/ Illumina paired-end sequencing
/ Quality
/ Sequence Analysis, DNA - methods
