各物种的多巴胺受体：脊椎动物中的基因复制与功能多样化

Dopamine receptors for every species: gene duplications and functional diversification in Craniates.

作者信息

Le Crom Stéphane, Kapsimali Marika, Barôme Pierre-Olivier, Vernier Philippe

机构信息

Développement, Evolution et Plasticité du Systeme Nerveux, UPR 2197, Institut de Neurobiologie A. Fessard, CNRS, Avenue de la Terrasse, F-91118 Gif-sur-Yvette, France.

出版信息

J Struct Funct Genomics. 2003;3(1-4):161-76.

PMID:12836695

Abstract

The neuromodulatory effects of dopamine on the central nervous system of craniates are mediated by two classes of G protein-coupled receptors (D1 and D2), each comprising several subtypes. A systematic isolation and characterization of the D1 and D2-like receptors was carried out in most of the Craniate groups. It revealed that two events of gene duplications took place during vertebrate evolution, before or simultaneously to the emergence of Gnathostomes. It led to the conservation of two-to-four paralogous receptors (subtypes), depending on the species. Additional duplication of dopamine receptor gene occurred independently in the teleost fish lineage. Duplicated genes were maintained in most of the vertebrate groups, certainly by the acquisition of a few functional characters, specific of each subtypes, as well as by discrete changes in their expression territories in the brain. The evolutionary scenario elaborated from these data suggests that receptor gene duplications were the necessary conditions for the expansion of vertebrate forebrain to occur, allowing dopamine systems to exert their fundamental role as modulator of the adaptive capabilities acquired by vertebrate species.

摘要

多巴胺对有头类动物中枢神经系统的神经调节作用是由两类G蛋白偶联受体（D1和D2）介导的，每类受体都包含几个亚型。在大多数有头类动物群体中，对D1和D2样受体进行了系统的分离和表征。结果表明，在脊椎动物进化过程中，在颌口类动物出现之前或同时发生了两次基因复制事件。这导致了根据物种不同，有两到四个同源受体（亚型）得以保留。多巴胺受体基因在硬骨鱼谱系中独立发生了额外的复制。复制的基因在大多数脊椎动物群体中得以保留，这肯定是通过获得每个亚型特有的一些功能特征，以及通过它们在大脑中表达区域的离散变化实现的。从这些数据得出的进化假说表明，受体基因复制是脊椎动物前脑扩展发生的必要条件，使多巴胺系统能够发挥其作为脊椎动物物种获得的适应能力调节剂的基本作用。

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各物种的多巴胺受体：脊椎动物中的基因复制与功能多样化

Dopamine receptors for every species: gene duplications and functional diversification in Craniates.

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