拟南芥多倍体杂交种和渗入区SRK等位基因的时空多样性

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Christiane Kiefer , Paola Ruiz Duarte , Roswitha Schmickl , Marcus A. Koch
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引用次数: 0

摘要

繁殖障碍和定向基因流可能在维持遗传梯度方面发挥关键作用,从而允许沿生态梯度进行生态分化。在十字花科中,孢子体不亲和系统(SI)导致了基因流动的障碍,母体成分由大量多样性的SRK(柱头特异性S位点受体激酶)等位基因代表,这些等位基因具有不同的优势频率和水平。在涉及a.lyrata和a.arenosa的拟南芥渗入系统中,在向更干燥和更温暖的条件转变以及基岩类型从钙质向硅化物转变之后,沿着生态梯度的这种临床遗传梯度已经被早期发现。集合人口系统从奥地利东北部的forelps向北延伸到多瑙河和波希米亚地块。在这里,我们探索了在这些杂交拟南芥四倍体集合种群系统及其假定的亲本来源种群中种群水平SRK基因库的多样性。由于已经证明A.lyrata是母本,A.arenosa通过花粉渗入,构成了一个遗传谱系,而A.arenosia遗传背景的贡献越来越小,我们检验了这种谱系也可以通过SRK等位基因分化来解释的假设。在80公里的样带上,共分析了来自45个渐渗和非渐渗A.lyrata和A.arenosa种群的603个个体的SRK等位基因变异。总共有22个等位基因来自先前描述的所有四个显性类别。尽管在渗入区后存在临床形态和遗传变异,但SRK等位基因并不遵循父系分类群的这一特征。此外,功能性SI系统在整个样带中完全保持,交叉实验表明,根据本文研究的样带上种群之间的不同距离,适应度没有降低。我们得出的结论是,SRK等位基因库的传播和结构有助于沿如此显著的生态梯度成功地进行冰川后定殖,维持功能性SI系统并抵消遗传损耗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The spatio-temporal diversification of SRK alleles in an Arabidopsis polyploid hybrid and introgression zone

Reproductive barriers and directional geneflow may play a key role in maintaining genetic gradients, thereby allowing ecological differentiation along ecological clines. In Brassicaceae, a sporophytic incompatibility system (SI) contributes to such barriers to geneflow, with the maternal component represented by a large diversity of SRK (stigma-specific S locus receptor kinase) alleles at varying frequencies and levels of dominance. Such clinal genetic gradient along an ecological gradient following a shift towards much drier and warmer conditions and also the bedrock type shifts from calcareous to silicious has been found earlier in an Arabidopsis introgression system involving A. lyrata and A. arenosa. The metapopulation system spans from the northeastern Austrian forealps northward towards the Danube river and the Bohemian massif. Here we explore diversification of population-level SRK gene pools across these hybrid Arabidopsis tetraploid metapopulation system and its putative parental source populations. Since it has been demonstrated that A. lyrata served as the maternal parent and A. arenosa introgressed via pollen constituting a genetic cline with decreasing contribution of A. arenosa genetic background, we test the hypothesis that this cline can be also explained by SRK allelic differentiation. A total of 603 individuals from 45 populations of introgressed and non-introgressed A. lyrata and A. arenosa across a 80 km transect were analysed for SRK allele variation. In total, 22 alleles from all four previously described dominance classes have been documented. Although there is clinal morphological and genetic variation following the introgression zone, SRK alleles do not follow this signature of the paternal taxa. Furthermore, the functional SI system is fully maintained across the transect, and crossing experiments show that there is no decrease in fitness depending on varying distances between populations along the transect studied herein. We conclude that transmission and structure of the SRK allelic gene pool contributes to the postglacial colonization success along such a pronounced ecological gradient maintaining a functional SI system and counteracting genetic depletion.

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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