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全基因组基因分型阐明了多倍体和无性繁殖的山药(薯蓣属)的地理多样化和扩散。

Genome-wide genotyping elucidates the geographical diversification and dispersal of the polyploid and clonally propagated yam (Dioscorea alata).

机构信息

CIRAD, UMR AGAP, F34398-Montpellier, France.

AGAP, Univ Montpellier, CIRAD, INRA, Montpellier SupAgro, Montpellier, France.

出版信息

Ann Bot. 2020 Oct 30;126(6):1029-1038. doi: 10.1093/aob/mcaa122.

DOI:10.1093/aob/mcaa122
PMID:32592585
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7596366/
Abstract

BACKGROUND AND AIMS

Inferring the diffusion history of many human-dispersed species is still not straightforward due to unresolved past human migrations. The centre of diversification and routes of migration of the autopolyploid and clonally propagated greater yam, Dioscorea alata, one of the oldest edible tubers, remain unclear. Here, we address yam demographic and dispersal history using a worldwide sample.

METHODS

We characterized genome-wide patterns of genetic variation using genotyping by sequencing 643 greater yam accessions spanning four continents. First, we disentangled the polyploid and clonal components of yam diversity using allele frequency distribution and identity by descent approaches. We then addressed yam geographical origin and diffusion history with a model-based coalescent inferential approach.

KEY RESULTS

Diploid genotypes were more frequent than triploids and tetraploids worldwide. Genetic diversity was generally low and clonality appeared to be a main factor of diversification. The most likely evolutionary scenario supported an early divergence of mainland Southeast Asian and Pacific gene pools with continuous migration between them. The genetic make-up of triploids and tetraploids suggests that they have originated from these two regions before westward yam migration. The Indian Peninsula gene pool gave origin to the African gene pool, which was later introduced to the Caribbean region.

CONCLUSIONS

Our results are congruent with the hypothesis of independent domestication origins of the two main Asian and Pacific gene pools. The low genetic diversity and high clonality observed suggest a strong domestication bottleneck followed by thousands of years of widespread vegetative propagation and polyploidization. Both processes reduced the extent of diversity available for breeding, and this is likely to threaten future adaptation.

摘要

背景和目的

由于过去人类迁徙尚未解决,推断许多人类散布物种的扩散历史仍然不太直接。作为最古老的食用块茎之一的同源多倍体和无性繁殖的大薯(Dioscorea alata)的多样化中心和迁移路线仍然不清楚。在这里,我们使用全球样本解决薯蓣的种群动态和扩散历史。

方法

我们使用测序 643 个跨越四大洲的大薯品种的基因型测序来描述全基因组遗传变异模式。首先,我们使用等位基因频率分布和同系物的方法来区分薯蓣多样性的多倍体和无性繁殖成分。然后,我们使用基于模型的合并推断方法解决薯蓣的地理起源和扩散历史。

主要结果

二倍体基因型在全球范围内比三倍体和四倍体更为普遍。遗传多样性总体较低,并且克隆似乎是多样化的主要因素。最可能的进化情景支持东南亚大陆和太平洋基因库的早期分化,并且它们之间存在持续的迁移。三倍体和四倍体的遗传构成表明,它们起源于这两个地区,然后向西迁移。印度半岛基因库起源于非洲基因库,后来又引入加勒比地区。

结论

我们的结果与两个主要的亚洲和太平洋基因库独立驯化起源的假设一致。观察到的低遗传多样性和高克隆性表明存在强烈的驯化瓶颈,随后是数千年的广泛无性繁殖和多倍化。这两个过程减少了可供育种的多样性程度,这可能威胁到未来的适应。

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