草莓驯化和多样化的基因组特征

Zhen Fan, Vance M Whitaker
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摘要

栽培草莓(Fragaria × ananassa)的历史不到 300 年,始于八倍体 F. chiloensis 和 F. virginiana 的杂交。在这里,我们利用来自美国两个主要育种计划的 289 个野生品种、传家品种和现代品种的全基因组序列,探索了早期驯化和随后针对不同气候多样化的基因组特征。结果发现了四个非混交的野生八倍体种群,在同域种群之间存在反复的引种。在现代品种中,F. virginiana 的祖先比例比最初的杂交种增加了 20%,F. chiloensis subsp.在早期育种过程中,有效种群数量迅速下降。与此同时,针对不同环境的差异选择重塑了 28 条染色体中 21 条的野生等位基因起源。在自然种群和驯化种群中重叠的差异选择扫描揭示了 16 个趋同的基因组特征,这些特征可能对气候适应非常重要。尽管自最初杂交以来已进行了 20 个育种周期,但一半以上的产量和果实大小基因位点仍未经过人工选择。这些发现使目前世界上栽培最广泛的水果的驯化和育种历史更加清晰。
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Genomic signatures of strawberry domestication and diversification
Cultivated strawberry (Fragaria × ananassa) has a brief history of less than 300 years, beginning with the hybridization of octoploids F. chiloensis and F. virginiana. Here we explored the genomic signatures of early domestication and subsequent diversification for different climates using whole-genome sequences of 289 wild, heirloom and modern varieties from two major breeding programs in the US. Four non-admixed wild octoploid populations were identified, with recurrent introgression among the sympatric populations. The proportion of F. virginiana ancestry increased by 20% in modern varieties over initial hybrids, and the proportion of F. chiloensis subsp. pacifica rose from 0 to 3.4%. Effective population size rapidly declined during early breeding. Meanwhile, divergent selection for distinct environments reshaped wild allelic origins in 21 of 28 chromosomes. Overlapping divergent selective sweeps in natural and domesticated populations revealed 16 convergent genomic signatures that may be important for climatic adaptation. Despite 20 breeding cycles since initial hybridization, more than half of loci underlying yield and fruit size are still not under artificial selection. These insights add clarity to the domestication and breeding history of what is now the most widely cultivated fruit in the world.
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