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Genomic Signatures of North American Soybean Improvement Inform Diversity Enrichment Strategies and Clarify the Impact of Hybridization

机译:北美大豆改良的基因组特征通知了多样性富集策略并阐明了杂交的影响

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Crop improvement represents a long-running experiment in artificial selection on a complex trait, namely yield. How such selection relates to natural populations is unclear, but the analysis of domesticated populations could offer insights into the relative role of selection, drift, and recombination in all species facing major shifts in selective regimes. Because of the extreme autogamy exhibited by soybean ( Glycine max ), many “immortalized” genotypes of elite varieties spanning the last century have been preserved and characterized using ~50,000 single nucleotide polymorphic (SNP) markers. Also due to autogamy, the history of North American soybean breeding can be roughly divided into pre- and posthybridization eras, allowing for direct interrogation of the role of recombination in improvement and selection. Here, we report on genome-wide characterization of the structure and history of North American soybean populations and the signature of selection in these populations. Supporting previous work, we find that maturity defines population structure. Though the diversity of North American ancestors is comparable to available landraces, prehybridization line selections resulted in a clonal structure that dominated early breeding and explains many of the reductions in diversity found in the initial generations of soybean hybridization. The rate of allele frequency change does not deviate sharply from neutral expectation, yet some regions bare hallmarks of strong selection, suggesting a highly variable range of selection strengths biased toward weak effects. We also discuss the importance of haplotypes as units of analysis when complex traits fall under novel selection regimes.
机译:作物改良代表了一项针对复杂性状(即产量)的人工选择的长期实验。这种选择与自然种群之间的关系尚不清楚,但是对驯化种群的分析可以提供洞悉选择,漂移和重组在面临选择制度重大转变的所有物种中的相对作用的见解。由于大豆(Glycine max)表现出极端的自我配子习性,使用约50,000个单核苷酸多态性(SNP)标记保存并鉴定了跨越上个世纪的许多“永生化”基因型。同样由于同性配子,北美大豆育种的历史可以大致分为杂交前和杂交后时代,从而可以直接审视重组在改良和选择中的作用。在这里,我们报告了北美大豆种群的结构和历史的全基因组表征以及在这些种群中选择的标志。支持以前的工作,我们发现成熟度定义了人口结构。尽管北美祖先的多样性可与可用的地方品种相媲美,但预杂交系的选择导致克隆结构主导了早期育种,并解释了许多在大豆杂交初代中发现的多样性降低。等位基因频率变化的速率与中性预期没有明显偏离,但是某些地区没有强选择的标志,这表明偏向弱效的选择强度的变化范围很大。当复杂性状属于新的选择制度时,我们还将讨论单元型作为分析单位的重要性。

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