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Sat-BSA: an NGS-based method using local <i>de novo</i> assembly of long reads for rapid identification of genomic structural variations associated with agronomic traits

索引 生物 遗传学 大块分离分析 基因 INDEL突变 等位基因 表型 数量性状位点 候选基因 基因组 鉴定(生物学) 计算生物学 单核苷酸多态性 基因定位 基因型 植物 染色体
作者
Tenta Segawa,Chisato Nishiyama,Muluneh Tamiru‐Oli,Yu Sugihara,Akira Abe,Hinako Sone,Noriaki Itoh,Mayu Asukai,Aiko Uemura,Kaori Oikawa,Hiroe Utsushi,Ayako Ikegami-Katayama,Tomohiro Imamura,Masashi Mori,Ryohei Terauchi,Hiroki Takagi
出处
期刊:Breeding Science [Japanese Society of Breeding]
卷期号:71 (3): 299-312 被引量:8
标识
DOI:10.1270/jsbbs.20148
摘要

Advances in next generation sequencing (NGS)-based methodologies have accelerated the identifications of simple genetic variants such as point mutations and small insertions/deletions (InDels). Structural variants (SVs) including large InDels and rearrangements provide vital sources of genetic diversity for plant breeding. However, their analysis remains a challenge due to their complex nature. Consequently, novel NGS-based approaches are needed to rapidly and accurately identify SVs. Here, we present an NGS-based bulked-segregant analysis (BSA) technique called Sat-BSA (SVs associated with traits) for identifying SVs controlling traits of interest in crops. Sat-BSA targets allele frequencies at all SNP positions to first identify candidate genomic regions associated with a trait, which is then reconstructed by long reads-based local de novo assembly. Finally, the association between SVs, RNA-seq-based gene expression patterns and trait is evaluated for multiple cultivars to narrow down the candidate genes. We applied Sat-BSA to segregating F2 progeny obtained from crosses between turnip cultivars with different tuber colors and successfully isolated two genes harboring SVs that are responsible for tuber phenotypes. The current study demonstrates the utility of Sat-BSA for the identification of SVs associated with traits of interest in species with large and heterozygous genomes.

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