具有后生动物特异性结构域的模块化基因具有更高的组织特异性。

Modular genes with metazoan-specific domains have increased tissue specificity.

作者信息

Cohen-Gihon Inbar, Lancet Doron, Yanai Itai

机构信息

Department of Molecular Genetics, Weizmann Institute of Science, Rehovot 76100, Israel.

出版信息

Trends Genet. 2005 Apr;21(4):210-3. doi: 10.1016/j.tig.2005.02.008.

DOI:10.1016/j.tig.2005.02.008

PMID:15797615

Abstract

We have systematically examined the domain composition across a comprehensive set of tissue-specific, midrange and housekeeping genes as defined by their mode of expression in 52 normal mouse tissues. We show a definite correlation between the number of domains and the degree of tissue specificity. This trend is further supported by a novel analysis involving the time of origin of each domain. Genes containing metazoan-specific domains are more prevalent in signal transduction and cell-communication pathways, and are depleted in primary metabolism. Our analyses suggest that highly modular gene products have been recruited for tissue-specific functions that are required in complex organisms.

摘要

我们系统地研究了一系列全面的组织特异性、中等表达量和看家基因的结构域组成，这些基因是根据它们在52种正常小鼠组织中的表达模式来定义的。我们发现结构域的数量与组织特异性程度之间存在明确的相关性。一项涉及每个结构域起源时间的新分析进一步支持了这一趋势。含有后生动物特异性结构域的基因在信号转导和细胞通讯途径中更为普遍，而在初级代谢中则较少。我们的分析表明，高度模块化的基因产物已被用于复杂生物体所需的组织特异性功能。

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具有后生动物特异性结构域的模块化基因具有更高的组织特异性。

Modular genes with metazoan-specific domains have increased tissue specificity.

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