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水分胁迫下功能反应的变化与节节麦种复合体中天然异源多倍体种群的分化。

Variation in functional responses to water stress and differentiation between natural allopolyploid populations in the Brachypodium distachyon species complex.

机构信息

Departamento de Biología Animal, Biología Vegetal y Ecología, Universidad de Jaén, Jaén, Spain.

Bioinformatics Unit, Central Service for Research Support (SCAI), University of Córdoba, Córdoba, Spain.

出版信息

Ann Bot. 2018 Jun 8;121(7):1369-1382. doi: 10.1093/aob/mcy037.

DOI:10.1093/aob/mcy037
PMID:29893879
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6007385/
Abstract

BACKGROUND AND AIMS

Some polyploid species show enhanced physiological tolerance to drought compared with their progenitors. However, very few studies have examined the consistency of physiological drought response between genetically differentiated natural polyploid populations, which is key to evaluation of the importance of adaptive evolution after polyploidization in those systems where drought exerts a selective pressure.

METHODS

A comparative functional approach was used to investigate differentiation of drought-tolerance-related traits in the Brachypodium species complex, a model system for grass polyploid adaptive speciation and functional genomics that comprises three closely related annual species: the two diploid parents, B. distachyon and B. stacei, and the allotetraploid derived from them, B. hybridum. Differentiation of drought-tolerance-related traits between ten genetically distinct B. hybridum populations and its ecological correlates was further analysed.

KEY RESULTS

The functional drought response is overall well differentiated between Brachypodium species. Brachypodium hybridum allotetraploids showed a transgressive expression pattern in leaf phytohormone content in response to drought. In contrast, other B. hybridum physiological traits correlated to B. stacei ones. Particularly, proline and water content were the traits that best discriminated these species from B. distachyon under drought.

CONCLUSIONS

After polyploid formation and/or colonization, B. hybridum populations have adaptively diverged physiologically and genetically in response to variations in aridity.

摘要

背景与目的

与祖先相比,一些多倍体物种表现出对干旱更强的生理耐受性。然而,很少有研究检验过在遗传分化的自然多倍体群体之间,对干旱的生理响应是否具有一致性,而这是评估多倍化后适应性进化重要性的关键,因为在多倍体化系统中干旱施加了选择压力。

方法

本研究采用比较功能方法,研究了包含三个密切相关的一年生物种的拟南芥属物种复合体中与耐旱性相关的特征分化:两个二倍体亲本,短柄草和斯泰西短柄草,以及由它们衍生的异源四倍体,杂种短柄草。进一步分析了十个遗传上不同的杂种短柄草种群的耐旱性相关特征分化及其生态相关性。

主要结果

拟南芥属物种之间的功能干旱响应总体上有很好的分化。杂种短柄草异源四倍体在干旱条件下的叶片植物激素含量方面表现出了超越表现的表达模式。相比之下,其他杂种短柄草的生理特征与斯泰西短柄草相关。特别是,脯氨酸和含水量是在干旱条件下将这些物种与短柄草区分开来的最佳特征。

结论

在多倍体形成和/或定植后,杂种短柄草种群在生理和遗传上适应了干旱变化的环境。

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