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水通道蛋白基因簇的功能进化揭示了硬骨鱼类卵子在海洋中成功的奥秘。

Functional Evolution of Clustered Aquaporin Genes Reveals Insights into the Oceanic Success of Teleost Eggs.

机构信息

Institute of Agrifood Research and Technology (IRTA)-Institute of Biotechnology and Biomedicine (IBB), Universitat Autònoma de Barcelona, Barcelona, Spain.

Institute of Marine Sciences, Spanish National Research Council (CSIC), Barcelona, Spain.

出版信息

Mol Biol Evol. 2023 Apr 4;40(4). doi: 10.1093/molbev/msad071.

DOI:10.1093/molbev/msad071
PMID:36947084
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10075191/
Abstract

Aquaporin-mediated oocyte hydration is considered important for the evolution of pelagic eggs and the radiative success of marine teleosts. However, the molecular regulatory mechanisms controlling this vital process are not fully understood. Here, we analyzed >400 piscine genomes to uncover a previously unknown teleost-specific aquaporin-1 cluster (TSA1C) comprised of tandemly arranged aqp1aa-aqp1ab2-aqp1ab1 genes. Functional evolutionary analysis of the TSA1C reveals a ∼300-million-year history of downstream aqp1ab-type gene loss, neofunctionalization, and subfunctionalization, but with marine species that spawn highly hydrated pelagic eggs almost exclusively retaining at least one of the downstream paralogs. Unexpectedly, one-third of the modern marine euacanthomorph teleosts selectively retain both aqp1ab-type channels and co-evolved protein kinase-mediated phosphorylation sites in the intracellular subdomains together with teleost-specific Ywhaz-like (14-3-3ζ-like) binding proteins for co-operative membrane trafficking regulation. To understand the selective evolutionary advantages of these mechanisms, we show that a two-step regulated channel shunt avoids competitive occupancy of the same plasma membrane space in the oocyte and accelerates hydration. These data suggest that the evolution of the adaptive molecular regulatory features of the TSA1C facilitated the rise of pelagic eggs and their subsequent geodispersal in the oceanic currents.

摘要

水通道蛋白介导的卵母细胞水合作用被认为对浮游卵的进化和海洋硬骨鱼类的辐射成功很重要。然而,控制这一重要过程的分子调节机制尚不完全清楚。在这里,我们分析了 >400 个鱼类基因组,以揭示以前未知的鱼类特异性水通道蛋白-1 簇(TSA1C),由串联排列的 aqp1aa-aqp1ab2-aqp1ab1 基因组成。对 TSA1C 的功能进化分析揭示了大约 3 亿年的下游 aqp1ab 型基因丢失、新功能化和亚功能化的历史,但产卵高度水合的浮游卵的海洋物种几乎都保留了至少一个下游的旁系同源基因。出乎意料的是,现代海洋真骨鱼中三分之一的选择性保留了 aqp1ab 型通道以及与细胞内亚结构域共进化的蛋白激酶介导的磷酸化位点,以及与硬骨鱼特异性的 Ywhaz 样(14-3-3ζ 样)结合蛋白一起进行协同膜运输调节。为了了解这些机制的选择性进化优势,我们表明两步调控的通道分流避免了在卵母细胞中竞争占据相同的质膜空间,并加速了水合作用。这些数据表明,TSA1C 的适应性分子调节特征的进化促进了浮游卵的出现及其随后在海洋流中的地理扩散。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a357/10075191/dfc3aad09aab/msad071f8.jpg
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The Xenopus Oocyte as an Expression System for Functional Analyses of Fish Aquaporins.
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