Author: Li, Ruidong; Qu, Han; Chen, Jinfeng; Wang, Shibo; Chater, John M; Zhang, Le; Wei, Julong; Zhang, Yuan-Ming; Xu, Chenwu; Zhong, Wei-De; Zhu, Jianguo; Lu, Jianming; Feng, Yuanfa; Chen, Weiming; Ma, Renyuan; Ferrante, Sergio Pietro; Roose, Mikeal L; Jia, Zhenyu
Title: Inference of Chromosome-Length Haplotypes Using Genomic Data of Three or a Few More Single Gametes. Cord-id: vv27pxof Document date: 2020_7_15
ID: vv27pxof
Snippet: Compared to genomic data of individual markers, haplotype data provide higher resolution for DNA variants, advancing our knowledge in genetics and evolution. Although many computational and experimental phasing methods have been developed for analyzing diploid genomes, it remains challenging to reconstruct chromosome-scale haplotypes at low cost, which constrains the utility of this valuable genetic resource. Gamete cells, the natural packaging of haploid complements, are ideal materials for pha
Document: Compared to genomic data of individual markers, haplotype data provide higher resolution for DNA variants, advancing our knowledge in genetics and evolution. Although many computational and experimental phasing methods have been developed for analyzing diploid genomes, it remains challenging to reconstruct chromosome-scale haplotypes at low cost, which constrains the utility of this valuable genetic resource. Gamete cells, the natural packaging of haploid complements, are ideal materials for phasing entire chromosomes because the majority of the haplotypic allele combinations have been preserved. Therefore, compared to the current diploid-based phasing methods, using haploid genomic data of single gametes may substantially reduce the complexity in inferring the donor's chromosomal haplotypes. In this study, we developed the first easy-to-use R package, Hapi, for inferring chromosome-length haplotypes of individual diploid genomes with only a few gametes. Hapi outperformed other phasing methods when analyzing both simulated and real single gamete cell sequencing datasets. The results also suggested that chromosome-scale haplotypes may be inferred by using as few as three gametes, which has pushed the boundary to its possible limit. The single gamete cell sequencing technology allied with the cost-effective Hapi method will make large-scale haplotype-based genetic studies feasible and affordable, promoting the use of haplotype data in a wide range of research.
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