基因组重测序揭示了苹果的历史，并支持果实膨大的两阶段模型。

Genome re-sequencing reveals the history of apple and supports a two-stage model for fruit enlargement.

作者信息

Duan Naibin, Bai Yang, Sun Honghe, Wang Nan, Ma Yumin, Li Mingjun, Wang Xin, Jiao Chen, Legall Noah, Mao Linyong, Wan Sibao, Wang Kun, He Tianming, Feng Shouqian, Zhang Zongying, Mao Zhiquan, Shen Xiang, Chen Xiaoliu, Jiang Yuanmao, Wu Shujing, Yin Chengmiao, Ge Shunfeng, Yang Long, Jiang Shenghui, Xu Haifeng, Liu Jingxuan, Wang Deyun, Qu Changzhi, Wang Yicheng, Zuo Weifang, Xiang Li, Liu Chang, Zhang Daoyuan, Gao Yuan, Xu Yimin, Xu Kenong, Chao Thomas, Fazio Gennaro, Shu Huairui, Zhong Gan-Yuan, Cheng Lailiang, Fei Zhangjun, Chen Xuesen

机构信息

State Key Laboratory of Crop Biology, Shandong Agricultural University, Tai'an, Shandong, 271000, People's Republic of China.

Shandong Centre of Crop Germplasm Resources, Shandong Academy of Agricultural Sciences, Jinan, Shandong, 250100, People's Republic of China.

出版信息

Nat Commun. 2017 Aug 15;8(1):249. doi: 10.1038/s41467-017-00336-7.

DOI:10.1038/s41467-017-00336-7

PMID:28811498

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5557836/

Abstract

Human selection has reshaped crop genomes. Here we report an apple genome variation map generated through genome sequencing of 117 diverse accessions. A comprehensive model of apple speciation and domestication along the Silk Road is proposed based on evidence from diverse genomic analyses. Cultivated apples likely originate from Malus sieversii in Kazakhstan, followed by intensive introgressions from M. sylvestris. M. sieversii in Xinjiang of China turns out to be an "ancient" isolated ecotype not directly contributing to apple domestication. We have identified selective sweeps underlying quantitative trait loci/genes of important fruit quality traits including fruit texture and flavor, and provide evidences supporting a model of apple fruit size evolution comprising two major events with one occurring prior to domestication and the other during domestication. This study outlines the genetic basis of apple domestication and evolution, and provides valuable information for facilitating marker-assisted breeding and apple improvement.Apple is one of the most important fruit crops. Here, the authors perform deep genome resequencing of 117 diverse accessions and reveal comprehensive models of apple origin, speciation, domestication, and fruit size evolution as well as candidate genes associated with important agronomic traits.

摘要

人类选择重塑了作物基因组。在此，我们报告了通过对117份不同种质进行基因组测序而生成的苹果基因组变异图谱。基于来自多种基因组分析的证据，提出了一个沿丝绸之路的苹果物种形成和驯化的综合模型。栽培苹果可能起源于哈萨克斯坦的塞威士苹果，随后有大量森林苹果的基因渗入。中国新疆的塞威士苹果原来是一种“古老”的隔离生态型，并未直接参与苹果的驯化。我们已经确定了重要果实品质性状（包括果实质地和风味）的数量性状基因座/基因背后的选择性清除，并提供了支持苹果果实大小进化模型的证据，该模型包括两个主要事件，一个发生在驯化之前，另一个发生在驯化期间。本研究概述了苹果驯化和进化的遗传基础，并为促进标记辅助育种和苹果改良提供了有价值的信息。苹果是最重要的水果作物之一。在此，作者对117份不同种质进行了深度基因组重测序，揭示了苹果起源、物种形成、驯化和果实大小进化的综合模型以及与重要农艺性状相关的候选基因。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/997a/5557836/2c1cdd37f06b/41467_2017_336_Fig1_HTML.jpg

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基因组重测序揭示了苹果的历史，并支持果实膨大的两阶段模型。

Genome re-sequencing reveals the history of apple and supports a two-stage model for fruit enlargement.

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