包括领鞭毛虫基因的基因家族树证明动物蛋白酪氨酸激酶基因的古老分化。

Ancient divergence of animal protein tyrosine kinase genes demonstrated by a gene family tree including choanoflagellate genes.

作者信息

Suga Hiroshi, Sasaki Go, Kuma Kei-Ichi, Nishiyori Hiromi, Hirose Nozomi, Su Zhi-Hui, Iwabe Naoyuki, Miyata Takashi

机构信息

Department of Cell Biology, Biozentrum, University of Basel, Basel, Switzerland.

出版信息

FEBS Lett. 2008 Mar 5;582(5):815-8. doi: 10.1016/j.febslet.2008.02.002. Epub 2008 Feb 11.

DOI:10.1016/j.febslet.2008.02.002

PMID:18267119

Abstract

Animal-specific gene families involved in cell-cell communication and developmental control comprise many subfamilies with distinct domain structures and functions. They diverged by subfamily-generating duplications and domain shufflings before the parazoan-eumetazoan split. Here, we have cloned 40 PTK cDNAs from choanoflagellates, Monosiga ovata, Stephanoeca diplocostata and Codosiga gracilis, the closest relatives to animals. A phylogeny-based analysis of PTKs revealed that 40 out of 47 subfamilies analyzed have unique domain structures and are possibly generated independently in animal and choanoflagellate lineages by domain shufflings. Seven cytoplasmic subfamilies showed divergence before the animal-choanoflagellate split originated by both duplications and shufflings.

摘要

参与细胞间通讯和发育控制的动物特异性基因家族包含许多具有不同结构域结构和功能的亚家族。它们在侧生动物-真后生动物分化之前通过亚家族产生的重复和结构域改组而分化。在这里，我们从动物最亲近的亲属——领鞭毛虫卵形单歧藻、双肋斯蒂芬藻和纤细柯多藻中克隆了40个蛋白酪氨酸激酶（PTK）cDNA。基于系统发育的PTK分析表明，在分析的47个亚家族中，有40个具有独特的结构域结构，可能是通过结构域改组在动物和领鞭毛虫谱系中独立产生的。七个细胞质亚家族在动物-领鞭毛虫分化之前就因重复和改组而出现了分化。

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包括领鞭毛虫基因的基因家族树证明动物蛋白酪氨酸激酶基因的古老分化。

Ancient divergence of animal protein tyrosine kinase genes demonstrated by a gene family tree including choanoflagellate genes.

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