Insertion/deletion markers for assessing the genetic variation and the spatial genetic structure of Tunisian Brachypodium hybridum populations

M. Neji, F. Geuna, Sean P. Gordon, W. Taamalli, J. Vogel, Y. Ibrahim, A. Smaoui, C. Abdelly, M. Gandour
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引用次数: 3

Abstract

The wild annual grass Brachypodium hybridum, an allotetraploid species derived from the natural hybridization between the diploid species B. distachyon (2n=10) and B. stacei (2n=20). This trio of species has been suggested as a model system for polyploidy. Brachypodium hybridum is the most widespread Brachypodium species in Tunisia. Natural diversity can be used as a powerful tool to uncover gene function and, in the case of B. hybridum , to understand the functional consequences of polyploidy. Here, we examined the spatial distribution of genetic variation of B. hybridum across its entire range in Tunisia and tested underlying factors that shaped its genetic variation. Population genetic analyses were conducted on 145 individuals from 9 populations using 8 InDel markers. Results indicated a relatively high level of within-population genetic diversity (He = 0.35) and limited among-population differentiation (F PT = 0.20) for this predominantly self-pollinating grass. UPGMA cluster analyses, PCoA and Bayesian clustering supported the demarcation of the populations into 3 groups that were not correlated with location or altitude, suggesting a loose genetic affinity of B. hybridum populations in relation to their geographical locations, and no obvious genetic structure among populations across the study area. This pattern was associated with a considerable amount of an asymmetric gene flow between populations. Overall, the obtained results suggest that the long-distance seed-dispersal is the most important factor in shaping the spatial genetic structure of B. hybridum in Tunisia. They also provide key guidelines for on-going and future work including breeding programs and genome-wide association studies.
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插入/缺失标记评价突尼斯短掌草群体遗传变异和空间遗传结构
野生一年生草Brachypodium hybridum是由二倍体种B. distachyon (2n=10)和B. stacei (2n=20)自然杂交而成的异源四倍体物种。这三个物种被认为是多倍体的一个模式系统。短柄菊是突尼斯分布最广的短柄菊种。自然多样性可以作为一个强大的工具来揭示基因功能,并在B. hybridum的情况下,了解多倍体的功能后果。在此,我们研究了杂交种在突尼斯整个分布范围内遗传变异的空间分布,并测试了形成其遗传变异的潜在因素。利用8个InDel标记对9个群体145个个体进行群体遗传分析。结果表明,自花传粉禾草具有较高的群体内遗传多样性(He = 0.35)和有限的群体间分化(F PT = 0.20)。UPGMA聚类分析、PCoA聚类和贝叶斯聚类支持将杂交种群体划分为与地理位置和海拔高度无关的3个类群,表明杂交种群体与地理位置的遗传亲和度较低,研究区域内杂交种群体之间没有明显的遗传结构。这种模式与种群间大量的不对称基因流动有关。综上所述,远距离种子传播是影响突尼斯杂交花空间遗传结构的最重要因素。它们还为正在进行和未来的工作提供关键指导,包括育种计划和全基因组关联研究。
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