根据基因组证据,鸟类表型趋同受到的遗传限制较小。

IF 3.4 Q1 Agricultural and Biological Sciences BMC Evolutionary Biology Pub Date : 2020-11-07 DOI:10.1186/s12862-020-01711-7
Yu-Chi Chen, Hao-Chih Kuo, Wen-Sui Lo, Chih-Ming Hung
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引用次数: 0

摘要

背景:不同物种之间的表型趋同为研究遗传进化的可预测性提供了机会。不相关的物种共享表型趋同的遗传基础,表明遗传约束很强,因此进化的可预测性很高。然而,基因组对趋同进化的制约还没有清晰的全貌。基于基因组的系统进化已经证实了许多鸟类表型趋同的案例,使其成为研究表型趋同中遗传约束的良好系统。在这项研究中,我们使用了分层基因组学方法来估计鸟类三个趋同性状的遗传限制因素:夜行性、猛禽行为和足推式潜水:结果:基于系统发育的假设检验和正选择检验被用于比较代表14个目16个鸟类基因组,并识别出具有强烈趋同信号的基因。我们发现了与三种表型趋同情况相关的 43 个适应性趋同基因(ACGs),并评估了所有三种情况下的遗传限制,包括(氨基酸)位点突变和遗传途径。我们发现,在导致表型趋同的 ACGs 中,禽类各目共享的位点突变很少,而且这些 ACGs 在任何遗传途径中都没有富集。此外,具有趋同的足推动潜水行为或猛禽行为的不同类群共享的 ACG 也很少。我们还发现,与不同的类群相比,具有相同足动力潜水行为的近缘类群并没有共享更多的 ACGs,这表明这些类群之间的趋同不能用它们最初的基因组背景来解释:我们对三个鸟类趋同事件的分析表明,在多个遗传水平上表型趋同的约束较低,这意味着在鸟类的系统发育水平上,遗传进化是不可预测的。我们的研究是首次将分级基因组检查应用于多个鸟类趋同案例以评估生活史性状进化中的遗传限制的研究之一。
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Avian phenotypic convergence is subject to low genetic constraints based on genomic evidence.

Background: Phenotypic convergence between distinct species provides an opportunity to examine the predictability of genetic evolution. Unrelated species sharing genetic underpinnings for phenotypic convergence suggests strong genetic constraints, and thus high predictability of evolution. However, there is no clear big picture of the genomic constraints on convergent evolution. Genome-based phylogenies have confirmed many cases of phenotypic convergence in birds, making them a good system for examining genetic constraints in phenotypic convergence. In this study, we used hierarchical genomic approaches to estimate genetic constraints in three convergent avian traits: nocturnality, raptorial behavior and foot-propelled diving.

Results: Phylogeny-based hypothesis tests and positive selection tests were applied to compare 16 avian genomes, representing 14 orders, and identify genes with strong convergence signals. We found 43 adaptively convergent genes (ACGs) associated with the three phenotypic convergence cases and assessed genetic constraints in all three cases, from (amino acid) site mutations to genetic pathways. We found that the avian orders shared few site mutations in the ACGs that contributed to the convergent phenotypes, and that these ACGs were not enriched in any genetic pathways. In addition, different pairs of orders with convergent foot-propelled diving or raptorial behaviors shared few ACGs. We also found that closely related orders that shared foot-propelled diving behavior did not share more ACGs than did distinct orders, suggesting that convergence among these orders could not be explained by their initial genomic backgrounds.

Conclusions: Our analyses of three avian convergence events suggest low constraints for phenotypic convergence across multiple genetic levels, implying that genetic evolution is unpredictable at the phylogenetic level of avian order. Ours is one of first studies to apply hierarchical genomic examination to multiple avian convergent cases to assess the genetic constraints in life history trait evolution.

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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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