Fitness difference between two synonymous mutations of Phytophthora infestans ATP6 gene.

IF 2.3 Q2 ECOLOGY BMC ecology and evolution Pub Date : 2024-03-18 DOI:10.1186/s12862-024-02223-4

Oswald Nkurikiyimfura, Abdul Waheed, Hanmei Fang, Xiaoxian Yuan, Lixia Chen, Yan-Ping Wang, Guodong Lu, Jiasui Zhan, Lina Yang

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Abstract

Background: Sequence variation produced by mutation provides the ultimate source of natural selection for species adaptation. Unlike nonsynonymous mutation, synonymous mutations are generally considered to be selectively neutral but accumulating evidence suggests they also contribute to species adaptation by regulating the flow of genetic information and the development of functional traits. In this study, we analysed sequence characteristics of ATP6, a housekeeping gene from 139 Phytophthora infestans isolates, and compared the fitness components including metabolic rate, temperature sensitivity, aggressiveness, and fungicide tolerance among synonymous mutations.

Results: We found that the housekeeping gene exhibited low genetic variation and was represented by two major synonymous mutants at similar frequency (0.496 and 0.468, respectively). The two synonymous mutants were generated by a single nucleotide substitution but differed significantly in fitness as well as temperature-mediated spatial distribution and expression. The synonymous mutant ending in AT was more common in cold regions and was more expressed at lower experimental temperature than the synonymous mutant ending in GC and vice versa.

Conclusion: Our results are consistent with the argument that synonymous mutations can modulate the adaptive evolution of species including pathogens and have important implications for sustainable disease management, especially under climate change.

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Phytophthora infestans ATP6 基因两个同义突变之间的健壮性差异。

背景：突变产生的序列变异是物种适应自然选择的最终来源。与非同义突变不同，同义突变通常被认为是选择性中性的，但越来越多的证据表明，同义突变通过调节遗传信息的流动和功能性状的发展，也有助于物种适应。在这项研究中，我们分析了来自 139 株根腐菌分离株的看家基因 ATP6 的序列特征，并比较了同义突变之间的适应性成分，包括代谢率、温度敏感性、侵袭性和杀菌剂耐受性：结果：我们发现看家基因的遗传变异较低，而且有两个频率相似的主要同义突变体（分别为 0.496 和 0.468）。这两个同义突变体由单核苷酸置换产生，但在适应性以及温度介导的空间分布和表达方面存在显著差异。与以 GC 结尾的同义突变体相比，以 AT 结尾的同义突变体在寒冷地区更常见，在较低的实验温度下表达量更大，反之亦然：我们的研究结果与同义突变可以调节包括病原体在内的物种的适应性进化这一论点相一致，并对可持续疾病管理具有重要意义，尤其是在气候变化的情况下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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BMC ecology and evolution

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