Beijing Agro-Biotechnology Research Center, Beijing Academy of Agriculture and Forestry Sciences, Beijing, People's Republic of China.
Beijing Key Laboratory of Agricultural Genetic Resources and Biotechnology, Beijing, People's Republic of China.
Genome Biol. 2021 Jan 5;22(1):13. doi: 10.1186/s13059-020-02239-1.
Structural variations (SVs), a major resource of genomic variation, can have profound consequences on phenotypic variation, yet the impacts of SVs remain largely unexplored in crops.
Here, we generate a high-quality de novo genome assembly for a flat-fruit peach cultivar and produce a comprehensive SV map for peach, as a high proportion of genomic sequence is occupied by heterozygous SVs in the peach genome. We conduct population-level analyses that indicate SVs have undergone strong purifying selection during peach domestication, and find evidence of positive selection, with a significant preference for upstream and intronic regions during later peach improvement. We perform a SV-based GWAS that identifies a large 1.67-Mb heterozygous inversion that segregates perfectly with flat-fruit shape. Mechanistically, this derived allele alters the expression of the PpOFP2 gene positioned near the proximal breakpoint of the inversion, and we confirm in transgenic tomatoes that PpOFP2 is causal for flat-fruit shape.
Thus, beyond introducing new genomics resources for peach research, our study illustrates how focusing on SV data can drive basic functional discoveries in plant science.
结构变异(SVs)是基因组变异的主要资源,可能对表型变异产生深远影响,但在作物中,SVs 的影响在很大程度上仍未得到探索。
在这里,我们为一个扁平果桃品种生成了高质量的从头基因组组装,并为桃生成了一个全面的 SV 图谱,因为桃基因组中杂合 SVs 占据了很大比例的基因组序列。我们进行了群体水平的分析,表明 SVs 在桃的驯化过程中经历了强烈的净化选择,并发现了正选择的证据,在后来的桃改良过程中,上游和内含子区域存在明显的偏好。我们进行了基于 SV 的 GWAS,鉴定出一个与扁平果形状完全分离的大 1.67Mb 杂合倒位。从机制上讲,这个衍生的等位基因改变了位于倒位近端断点附近的 PpOFP2 基因的表达,我们在转基因番茄中证实 PpOFP2 是扁平果形状的原因。
因此,除了为桃研究引入新的基因组学资源外,我们的研究还说明了如何专注于 SV 数据可以推动植物科学的基本功能发现。
Zotero 插件
