一种重要作物野生近缘种的生态学与基因组学，作为农业创新的前奏。

Ecology and genomics of an important crop wild relative as a prelude to agricultural innovation.

作者信息

von Wettberg Eric J B, Chang Peter L, Başdemir Fatma, Carrasquila-Garcia Noelia, Korbu Lijalem Balcha, Moenga Susan M, Bedada Gashaw, Greenlon Alex, Moriuchi Ken S, Singh Vasantika, Cordeiro Matilde A, Noujdina Nina V, Dinegde Kassaye Negash, Shah Sani Syed Gul Abbas, Getahun Tsegaye, Vance Lisa, Bergmann Emily, Lindsay Donna, Mamo Bullo Erena, Warschefsky Emily J, Dacosta-Calheiros Emmanuel, Marques Edward, Yilmaz Mustafa Abdullah, Cakmak Ahmet, Rose Janna, Migneault Andrew, Krieg Christopher P, Saylak Sevgi, Temel Hamdi, Friesen Maren L, Siler Eleanor, Akhmetov Zhaslan, Ozcelik Huseyin, Kholova Jana, Can Canan, Gaur Pooran, Yildirim Mehmet, Sharma Hari, Vadez Vincent, Tesfaye Kassahun, Woldemedhin Asnake Fikre, Tar'an Bunyamin, Aydogan Abdulkadir, Bukun Bekir, Penmetsa R Varma, Berger Jens, Kahraman Abdullah, Nuzhdin Sergey V, Cook Douglas R

机构信息

Department of Biological Sciences and International Center for Tropical Botany, Florida International University, Miami, FL, 33199, USA.

Department of Plant and Soil Science, University of Vermont, Burlington, VT, 05405, USA.

出版信息

Nat Commun. 2018 Feb 13;9(1):649. doi: 10.1038/s41467-018-02867-z.

DOI:10.1038/s41467-018-02867-z

PMID:29440741

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5811434/

Abstract

Domesticated species are impacted in unintended ways during domestication and breeding. Changes in the nature and intensity of selection impart genetic drift, reduce diversity, and increase the frequency of deleterious alleles. Such outcomes constrain our ability to expand the cultivation of crops into environments that differ from those under which domestication occurred. We address this need in chickpea, an important pulse legume, by harnessing the diversity of wild crop relatives. We document an extreme domestication-related genetic bottleneck and decipher the genetic history of wild populations. We provide evidence of ancestral adaptations for seed coat color crypsis, estimate the impact of environment on genetic structure and trait values, and demonstrate variation between wild and cultivated accessions for agronomic properties. A resource of genotyped, association mapping progeny functionally links the wild and cultivated gene pools and is an essential resource chickpea for improvement, while our methods inform collection of other wild crop progenitor species.

摘要

驯化物种在驯化和育种过程中会受到意想不到的影响。选择的性质和强度的变化会导致基因漂移，减少多样性，并增加有害等位基因的频率。这些结果限制了我们将作物种植扩展到与驯化环境不同的环境中的能力。我们通过利用野生作物近缘种的多样性来满足鹰嘴豆（一种重要的豆类作物）的这一需求。我们记录了一个与驯化相关的极端遗传瓶颈，并解读了野生种群的遗传历史。我们提供了种子 coat 颜色拟态的祖先适应性证据，估计了环境对遗传结构和性状值的影响，并展示了野生和栽培种质在农艺性状上的差异。一个经过基因分型的关联作图后代资源在功能上连接了野生和栽培基因库，是鹰嘴豆改良的重要资源，而我们的方法为其他野生作物祖先物种的收集提供了参考。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee84/5811434/6e282d2a2450/41467_2018_2867_Fig1_HTML.jpg

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一种重要作物野生近缘种的生态学与基因组学，作为农业创新的前奏。

Ecology and genomics of an important crop wild relative as a prelude to agricultural innovation.

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