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RGK蛋白功能的古老起源:电压门控钙通道的调节早于原口动物和后口动物的分化。

Ancient origins of RGK protein function: modulation of voltage-gated calcium channels preceded the protostome and deuterostome split.

作者信息

Puhl Henry L, Lu Van B, Won Yu-Jin, Sasson Yehezkel, Hirsch Joel A, Ono Fumihito, Ikeda Stephen R

机构信息

Laboratory of Molecular Physiology, Section on Transmitter Signaling, National Institute on Alcohol Abuse and Alcoholism, National Institutes of Health, Rockville, Maryland, United States of America.

Department of Biochemistry & Molecular Biology, Faculty of Life Sciences, Institute for Structural Biology, Tel Aviv University, Ramat Aviv, Israel.

出版信息

PLoS One. 2014 Jul 3;9(7):e100694. doi: 10.1371/journal.pone.0100694. eCollection 2014.

DOI:10.1371/journal.pone.0100694
PMID:24992013
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4081519/
Abstract

RGK proteins, Gem, Rad, Rem1, and Rem2, are members of the Ras superfamily of small GTP-binding proteins that interact with Ca2+ channel β subunits to modify voltage-gated Ca2+ channel function. In addition, RGK proteins affect several cellular processes such as cytoskeletal rearrangement, neuronal dendritic complexity, and synapse formation. To probe the phylogenetic origins of RGK protein-Ca2+ channel interactions, we identified potential RGK-like protein homologs in genomes for genetically diverse organisms from both the deuterostome and protostome animal superphyla. RGK-like protein homologs cloned from Danio rerio (zebrafish) and Drosophila melanogaster (fruit flies) expressed in mammalian sympathetic neurons decreased Ca2+ current density as reported for expression of mammalian RGK proteins. Sequence alignments from evolutionarily diverse organisms spanning the protostome/deuterostome divide revealed conservation of residues within the RGK G-domain involved in RGK protein--Cavβ subunit interaction. In addition, the C-terminal eleven residues were highly conserved and constituted a signature sequence unique to RGK proteins but of unknown function. Taken together, these data suggest that RGK proteins, and the ability to modify Ca2+ channel function, arose from an ancestor predating the protostomes split from deuterostomes approximately 550 million years ago.

摘要

RGK蛋白,包括Gem、Rad、Rem1和Rem2,是小GTP结合蛋白Ras超家族的成员,它们与Ca2+通道β亚基相互作用,以改变电压门控Ca2+通道的功能。此外,RGK蛋白还影响多种细胞过程,如细胞骨架重排、神经元树突复杂性和突触形成。为了探究RGK蛋白与Ca2+通道相互作用的系统发育起源,我们在基因组中鉴定了来自后口动物和原口动物超门的遗传多样性生物的潜在RGK样蛋白同源物。从斑马鱼和果蝇中克隆的RGK样蛋白同源物在哺乳动物交感神经元中表达时,如报道的哺乳动物RGK蛋白表达情况一样,降低了Ca2+电流密度。跨越原口动物/后口动物分界线的进化上不同生物的序列比对显示,参与RGK蛋白与Cavβ亚基相互作用的RGK G结构域内的残基具有保守性。此外,C末端的11个残基高度保守,构成了RGK蛋白特有的特征序列,但功能未知。综上所述,这些数据表明,RGK蛋白以及改变Ca2+通道功能的能力起源于大约5.5亿年前原口动物与后口动物分化之前的一个祖先。

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