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Dense and accurate whole-chromosome haplotyping of individual genomes

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The diploid nature of the human genome is neglected in many analyses done today, where a genome is perceived as a set of unphased variants with respect to a reference… Click to show full abstract

The diploid nature of the human genome is neglected in many analyses done today, where a genome is perceived as a set of unphased variants with respect to a reference genome. This lack of haplotype-level analyses can be explained by a lack of methods that can produce dense and accurate chromosome-length haplotypes at reasonable costs. Here we introduce an integrative phasing strategy that combines global, but sparse haplotypes obtained from strand-specific single-cell sequencing (Strand-seq) with dense, yet local, haplotype information available through long-read or linked-read sequencing. We provide comprehensive guidance on the required sequencing depths and reliably assign more than 95% of alleles (NA12878) to their parental haplotypes using as few as 10 Strand-seq libraries in combination with 10-fold coverage PacBio data or, alternatively, 10X Genomics linked-read sequencing data. We conclude that the combination of Strand-seq with different technologies represents an attractive solution to chart the genetic variation of diploid genomes.Haplotype information is important in investigating many biological phenomena. Here, Porubsky et al. combine Strand-seq with long-read or linked-read sequencing to obtain complete and genome-wide haplotypes of a single individual genome at manageable costs.

Keywords: linked read; dense accurate; strand seq; genome; read sequencing; chromosome

Journal Title: Nature Communications
Year Published: 2017

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