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2021年06月01日

Complete resequencing of extended genomic regions using fosmid target capture and single molecule real-time (SMRT) long read sequencing technology.

Author(s): Pyo, Chul-Woo and Wang, Kevin and Vierra-Green, Chnthia and Wang, Ruihan and Pyoon, Yoon Soo, and Eng, Kevin and Hall, Richard and Ranade, Swati and Geraghty, Daniel E.

A longstanding goal of genomic analysis is the identification of causal genetic factors contributing to disease. While the common disease/common variant hypothesis has been tested in many genome-wide association studies, few advancements in identifying causal variation have been realized, and instead recent findings point away from common variants towards aggregate rare variants as causal. A challenge is obtaining complete phased genomic sequences over extended genomic regions from sufficient numbers of cases and controls to identify all potential variation causal of a disease. To address this, we modified methods for targeted DNA isolation using fosmid technology and single-molecule, long-sequence-read generaton that combine for complete, haplotype-resolved resequencing across extended genomic subregions. As proof of principal, we validated the approach by resequencing four 800 kbp segments that span a major histocompatibility complex (MHC) common extended haplotype (CEH) associated with disease. The data revealed the extent of conservation exposing a near identity among four DR4 CEHs over conserved regions, detailing rare variation and measuring sequence accuracy. In a second test, we sequenced the complete KIR haplotypes from 8 individuals within a specific timeframe and cost. Single molecule long-read sequencing technology generated contiguous full-­length fosmid sequences of 30 to 40 kb in a single read, allowing assembly of resolved haplotypes with very little data processing. All of the sequences produced from these projects were contiguous, phased, with accuracy above 99.99%. The results demonstrated that cost-effective scale-­up is possible to generate scores to hundreds of phased chromosomal sequences of extended lengths that can encompass genomic regions associated with disease.

Organization: Fred Hutchinson Cancer Research Center
Year: 2015

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