Centre of Pear Engineering Technology Research, State Key Laboratory of Crop Genetics and Germplasm Enhancement, Nanjing Agricultural University, Nanjing, 210095, China.
Hebei Academy of Agriculture and Forestry Sciences, Shijiazhuang Fruit Tree Research Institute, Shijiazhuang, 050061, China.
Genome Biol. 2018 Jun 11;19(1):77. doi: 10.1186/s13059-018-1452-y.
Pear (Pyrus) is a globally grown fruit, with thousands of cultivars in five domesticated species and dozens of wild species. However, little is known about the evolutionary history of these pear species and what has contributed to the distinct phenotypic traits between Asian pears and European pears.
We report the genome resequencing of 113 pear accessions from worldwide collections, representing both cultivated and wild pear species. Based on 18,302,883 identified SNPs, we conduct phylogenetics, population structure, gene flow, and selective sweep analyses. Furthermore, we propose a model for the divergence, dissemination, and independent domestication of Asian and European pears in which pear, after originating in southwest China and then being disseminated throughout central Asia, has eventually spread to western Asia, and then on to Europe. We find evidence for rapid evolution and balancing selection for S-RNase genes that have contributed to the maintenance of self-incompatibility, thus promoting outcrossing and accounting for pear genome diversity across the Eurasian continent. In addition, separate selective sweep signatures between Asian pears and European pears, combined with co-localized QTLs and differentially expressed genes, underline distinct phenotypic fruit traits, including flesh texture, sugar, acidity, aroma, and stone cells.
This study provides further clarification of the evolutionary history of pear along with independent domestication of Asian and European pears. Furthermore, it provides substantive and valuable genomic resources that will significantly advance pear improvement and molecular breeding efforts.
梨(Pyrus)是一种全球性种植的水果,在五个驯化种和数十个野生种中拥有数千个品种。然而,对于这些梨种的进化历史以及是什么导致了亚洲梨和欧洲梨之间明显的表型特征差异,人们知之甚少。
我们报告了来自全球收藏的 113 个梨品种的基因组重测序,这些品种代表了栽培和野生梨种。基于 18,302,883 个鉴定的 SNP,我们进行了系统发育、群体结构、基因流和选择清除分析。此外,我们提出了一个亚洲梨和欧洲梨分歧、传播和独立驯化的模型,其中梨起源于中国西南部,然后传播到中亚,最终传播到西亚,然后传播到欧洲。我们发现了 S-RNase 基因快速进化和平衡选择的证据,这些基因有助于维持自交不亲和性,从而促进异交,解释了欧亚大陆梨基因组的多样性。此外,亚洲梨和欧洲梨之间独立的选择清除特征,加上共定位的 QTL 和差异表达基因,强调了不同的果实表型特征,包括果肉质地、糖、酸度、香气和石细胞。
本研究进一步阐明了梨的进化历史以及亚洲梨和欧洲梨的独立驯化。此外,它提供了实质性和有价值的基因组资源,将极大地推动梨的改良和分子育种工作。
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