The genomic scrapheap challenge; extracting relevant data from unmapped whole genome sequencing reads, including strain specific genomic segments, in rats

Robin H. Van Der Weide; Marieke Simonis; Roel Hermsen; Pim Toonen; Edwin Cuppen; Joep de Ligt

doi:10.1371/journal.pone.0160036

The genomic scrapheap challenge; extracting relevant data from unmapped whole genome sequencing reads, including strain specific genomic segments, in rats

Robin H. Van Der Weide, Marieke Simonis, Roel Hermsen, Pim Toonen, Edwin Cuppen, Joep de Ligt

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Abstract

Unmapped next-generation sequencing reads are typically ignored while they contain biologically relevant information. We systematically analyzed unmapped reads from whole genome sequencing of 33 inbred rat strains. High quality reads were selected and enriched for biologically relevant sequences; similarity-based analysis revealed clustering similar to previously reported phylogenetic trees. Our results demonstrate that on average 20% of all unmapped reads harbor sequences that can be used to improve reference genomes and generate hypotheses on potential genotype-phenotype relationships. Analysis pipelines would benefit from incorporating the described methods and reference genomes would benefit from inclusion of the genomic segments obtained through these efforts.

Original language	English
Article number	e0160036
Journal	PLoS ONE [E]
Volume	11
Issue number	8
DOIs	https://doi.org/10.1371/journal.pone.0160036
Publication status	Published - 1 Aug 2016

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abstract = "Unmapped next-generation sequencing reads are typically ignored while they contain biologically relevant information. We systematically analyzed unmapped reads from whole genome sequencing of 33 inbred rat strains. High quality reads were selected and enriched for biologically relevant sequences; similarity-based analysis revealed clustering similar to previously reported phylogenetic trees. Our results demonstrate that on average 20% of all unmapped reads harbor sequences that can be used to improve reference genomes and generate hypotheses on potential genotype-phenotype relationships. Analysis pipelines would benefit from incorporating the described methods and reference genomes would benefit from inclusion of the genomic segments obtained through these efforts.",

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AU - Toonen, Pim

AU - Cuppen, Edwin

AU - de Ligt, Joep

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The genomic scrapheap challenge; extracting relevant data from unmapped whole genome sequencing reads, including strain specific genomic segments, in rats

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