脊椎动物claudin基因家族的进化:来自一种基底脊椎动物,海七鳃鳗的见解。

Christian Mukendi, N. Dean, Rushil Lala, J. Smith, M. Bronner, N. Nikitina
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引用次数: 13

摘要

claudin是紧密连接的主要组成部分,有助于细胞间密封和选择性渗透特性。虽然在一些无脊椎动物中存在claudin和claudin样分子,但claudin与紧密连接的关联仅在脊椎动物中得到了确凿的记录。本文报道了在现存的基础脊椎动物——海七鳃鳗中整个claudin基因家族的测序、系统发育分析和综合时空表达分析。我们的研究结果表明,在所有哺乳动物中,有大约一半的同源物存在于七鳃鳗中,这表明至少一轮全基因组复制有助于该基因家族的多样化。表达分析表明,claudin在离散的和特定的区域表达,其中许多代表脊椎动物特异性的创新,如颅外胚层基板和神经嵴;而另一些则代表脊索动物的结构特征,如前肾、脊索、体、内壁和咽弓。通过比较七鳃鳗和其他脊椎动物中claudin的胚胎表达,我们发现在高等脊椎动物中通常保留了祖先的表达模式。Morpholino介导的Cldn3b缺失证明了该蛋白在placode和咽弓形态发生中的功能作用。综上所述,我们的数据为claudin基因家族的起源和进化以及claudin蛋白在脊椎动物进化中的意义提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evolution of the vertebrate claudin gene family: insights from a basal vertebrate, the sea lamprey.
Claudins are major constituents of tight junctions, contributing both to their intercellular sealing and selective permeability properties. While claudins and claudin-like molecules are present in some invertebrates, the association of claudins with tight junctions has been conclusively documented only in vertebrates. Here we report the sequencing, phylogenetic analysis and comprehensive spatiotemporal expression analysis of the entire claudin gene family in the basal extant vertebrate, the sea lamprey. Our results demonstrate that clear orthologues to about half of all mammalian claudins are present in the lamprey, suggesting that at least one round of whole genome duplication contributed to the diversification of this gene family. Expression analysis revealed that claudins are expressed in discrete and specific domains, many of which represent vertebrate-specific innovations, such as in cranial ectodermal placodes and the neural crest; whereas others represent structures characteristic of chordates, e.g. pronephros, notochord, somites, endostyle and pharyngeal arches. By comparing the embryonic expression of claudins in the lamprey to that of other vertebrates, we found that ancestral expression patterns were often preserved in higher vertebrates. Morpholino mediated loss of Cldn3b demonstrated a functional role for this protein in placode and pharyngeal arch morphogenesis. Taken together, our data provide novel insights into the origins and evolution of the claudin gene family and the significance of claudin proteins in the evolution of vertebrates.
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