钠离子通道的进化早于动物神经系统的起源。

Evolution of sodium channels predates the origin of nervous systems in animals.

机构信息

Section of Integrative Biology and Center for Computational Biology and Bioinformatics and Section of Neurobiology, University of Texas, Austin, TX 78712, USA.

出版信息

Proc Natl Acad Sci U S A. 2011 May 31;108(22):9154-9. doi: 10.1073/pnas.1106363108. Epub 2011 May 16.

DOI:10.1073/pnas.1106363108

PMID:21576472

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3107268/

Abstract

Voltage-dependent sodium channels are believed to have evolved from calcium channels at the origin of the nervous system. A search of the genome of a single-celled choanoflagellate (the sister group of animals) identified a gene that is homologous to animal sodium channels and has a putative ion selectivity filter intermediate between calcium and sodium channels. Searches of a wide variety of animal genomes, including representatives of each basal lineage, revealed that similar homologs were retained in most lineages. One of these, the Placozoa, does not possess a nervous system. We cloned and sequenced the full choanoflagellate channel and parts of two placozoan channels from mRNA, showing that they are expressed. Phylogenetic analysis clusters the genes for these channels with other known sodium channels. From this phylogeny we infer ancestral states of the ion selectivity filter and show that this state has been retained in the choanoflagellate and placozoan channels. We also identify key gene duplications and losses and show convergent amino acid replacements at important points along the animal lineage.

摘要

电压门控钠离子通道被认为是从神经系统起源的钙通道进化而来的。在一种单细胞领鞭毛虫（动物的姐妹群）的基因组中搜索到一个基因，该基因与动物钠离子通道同源，其推定的离子选择性过滤器位于钙通道和钠通道之间。对包括每个基础谱系代表在内的各种动物基因组的搜索表明，类似的同源物在大多数谱系中都被保留了下来。其中一种，即扁盘动物门，没有神经系统。我们从 mRNA 中克隆和测序了完整的领鞭毛虫通道和两个扁盘动物通道的部分序列，表明它们有表达。系统发育分析将这些通道的基因与其他已知的钠离子通道聚类在一起。从这个系统发育中，我们推断出离子选择性过滤器的祖先状态，并表明这种状态在领鞭毛虫和扁盘动物通道中得到了保留。我们还确定了关键的基因重复和丢失，并显示了在动物谱系的重要节点上发生的趋同氨基酸替换。

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