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野生植物克里特岛甘蓝(十字花科)中SRK和SCR自交不亲和基因的分子群体遗传学

Molecular population genetics of the SRK and SCR self-incompatibility genes in the wild plant species Brassica cretica (Brassicaceae).

作者信息

Edh Kristina, Widén Björn, Ceplitis Alf

机构信息

Department of Cell and Organism Biology, Lund University, Lund, Sweden.

出版信息

Genetics. 2009 Mar;181(3):985-95. doi: 10.1534/genetics.108.090829. Epub 2008 Dec 15.

DOI:10.1534/genetics.108.090829
PMID:19087967
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2651069/
Abstract

Self-incompatibility (SI) in plants is a classic example of a trait evolving under strong frequency-dependent selection. As a consequence, population genetic theory predicts that the S locus, which controls SI, should maintain numerous alleles, display a high level of nucleotide diversity, and, in structured populations, show a lower level of among-population differentiation compared to neutral loci. Population-level investigations of DNA sequence variation at the S locus have recently been carried out in the genus Arabidopsis, largely confirming results from theoretical models of S-locus evolutionary dynamics, but no comparable studies have been done in wild Brassica species. In this study, we sequenced parts of the S-locus genes SRK and SCR, two tightly linked genes that are directly involved in the determination of SI specificity in samples from four natural populations of the wild species Brassica cretica. The amount and distribution of nucleotide diversity, as well as the frequency spectrum of putative functional haplotypes, observed at the S locus in B. cretica fit very well with expectations from theoretical models, providing strong evidence for frequency-dependent selection acting on the S locus in a wild Brassica species.

摘要

植物中的自交不亲和性(SI)是在强烈频率依赖选择下进化的性状的经典例子。因此,群体遗传学理论预测,控制SI的S位点应维持大量等位基因,表现出高水平的核苷酸多样性,并且在结构化群体中,与中性位点相比,群体间分化水平较低。最近在拟南芥属中对S位点的DNA序列变异进行了群体水平的研究,很大程度上证实了S位点进化动态理论模型的结果,但尚未在野生芸苔属物种中进行类似研究。在本研究中,我们对野生物种克里特岛芸苔四个自然种群样本中直接参与SI特异性决定的两个紧密连锁基因S位点基因SRK和SCR的部分进行了测序。在克里特岛芸苔的S位点观察到的核苷酸多样性的数量和分布,以及推定功能单倍型的频率谱,与理论模型的预期非常吻合,为野生芸苔属物种中作用于S位点的频率依赖选择提供了有力证据。

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