推定的无功能等位基因的性质和分布表明,墨西哥洞穴鱼(Astyanax mexicanus)种群的起源只有两个独立的事件。

IF 2.3 Q2 ECOLOGY
Maxime Policarpo, Laurent Legendre, Isabelle Germon, Philippe Lafargeas, Luis Espinasa, Sylvie Rétaux, Didier Casane
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引用次数: 0

摘要

背景:一些研究表明,Astyanax mexicanus的洞穴鱼种群在晚更新世定居下来。这意味着洞穴鱼最明显的表型变化--失明和褪色,以及对洞穴生活非常重要的更隐蔽的特征都在迅速进化:结果:我们利用已发表的47条来自la Cueva de El Pachón、El Sótano de la Tinaja、La Cueva Chica和El Sótano de Molino的Astyanax洞穴鱼的基因组,在先前确定的基因(即视觉基因、昼夜节律时钟基因和色素沉着基因)中寻找推定的功能缺失突变。我们发现了四个视觉基因的假定无功能等位基因。然后,我们在全基因组范围内搜索了这四个洞穴种群中的假定无功能等位基因。在洞穴鱼中具有分离的推定非功能等位基因的 512 个基因中,我们发现视觉感知基因富集。在洞穴鱼种群中,我们发现了不同程度的共享推定非功能等位基因。利用发现推定功能缺失突变的 12 个基因子集,我们将共享假基因的分析扩展到 11 个洞穴鱼种群。在与表层鱼类发生广泛杂交的 El Sótano del Toro 种群中,我们利用发现了推测功能缺失突变的 6 个基因子集,发现眼睛退化程度与推测非功能等位基因的数量之间存在相关性:结论:我们证实,在大量视觉基因中存在极少量的推定非功能等位基因,这与墨西哥洞穴石首鱼(Astyanax mexicanus cavefish)的近代起源相符。此外,全基因组分析表明,推定功能缺失等位基因富集在与视觉相关的GO-terms基因中,这表明视觉感知可能是基因缺失主要影响的功能,而基因缺失与从地表环境到洞穴环境的转变有关。推测的功能缺失等位基因的地理分布新近表明,危地马拉山脉和阿布拉山脉的洞穴种群具有共同的起源,尽管其后经历了长期的独立进化。这也证明米科斯地区的种群具有独立的起源。在 El Sótano del Toro,尽管地表基因组发生了大规模的引入,但蛙人的表型仍得以保持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The nature and distribution of putative non-functional alleles suggest only two independent events at the origins of Astyanax mexicanus cavefish populations.

Background: Several studies suggested that cavefish populations of Astyanax mexicanus settled during the Late Pleistocene. This implies that the cavefish's most conspicuous phenotypic changes, blindness and depigmentation, and more cryptic characters important for cave life, evolved rapidly.

Results: Using the published genomes of 47 Astyanax cavefish from la Cueva de El Pachón, El Sótano de la Tinaja, La Cueva Chica and El Sótano de Molino, we searched for putative loss-of-function mutations in previously defined sets of genes, i.e., vision, circadian clock and pigmentation genes. Putative non-functional alleles for four vision genes were identified. Then, we searched genome-wide for putative non-functional alleles in these four cave populations. Among 512 genes with segregating putative non-functional alleles in cavefish that are absent in surface fish, we found an enrichment in visual perception genes. Among cavefish populations, different levels of shared putative non-functional alleles were found. Using a subset of 12 genes for which putative loss-of-function mutations were found, we extend the analysis of shared pseudogenes to 11 cave populations. Using a subset of six genes for which putative loss-of-function mutations were found in the El Sótano del Toro population, where extensive hybridization with surface fish occurs, we found a correlation between the level of eye regression and the amount of putative non-functional alleles.

Conclusions: We confirm that very few putative non-functional alleles are present in a large set of vision genes, in accordance with the recent origin of Astyanax mexicanus cavefish. Furthermore, the genome-wide analysis indicates an enrichment of putative loss-of-function alleles in genes with vision-related GO-terms, suggesting that visual perception may be the function chiefly impacted by gene losses related to the shift from a surface to a cave environment. The geographic distribution of putative loss-of-function alleles newly suggests that cave populations from Sierra de Guatemala and Sierra de El Abra share a common origin, albeit followed by independent evolution for a long period. It also supports that populations from the Micos area have an independent origin. In El Sótano del Toro, the troglomorphic phenotype is maintained despite massive introgression of the surface genome.

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