果蝇中源自X染色体的反转新基因。

Retroposed new genes out of the X in Drosophila.

作者信息

Betrán Esther, Thornton Kevin, Long Manyuan

机构信息

Department of Ecology and Evolution, The University of Chicago, Chicago, Illinois 60637, USA.

出版信息

Genome Res. 2002 Dec;12(12):1854-9. doi: 10.1101/gr.6049.

DOI:10.1101/gr.6049

PMID:12466289

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC187566/

Abstract

New genes that originated by various molecular mechanisms are an essential component in understanding the evolution of genetic systems. We investigated the pattern of origin of the genes created by retroposition in Drosophila. We surveyed the whole Drosophila melanogaster genome for such new retrogenes and experimentally analyzed their functionality and evolutionary process. These retrogenes, functional as revealed by the analysis of expression, substitution, and population genetics, show a surprisingly asymmetric pattern in their origin. There is a significant excess of retrogenes that originate from the X chromosome and retropose to autosomes; new genes retroposed from autosomes are scarce. Further, we found that most of these X-derived autosomal retrogenes had evolved a testis expression pattern. These observations may be explained by natural selection favoring those new retrogenes that moved to autosomes and avoided the spermatogenesis X inactivation, and suggest the important role of genome position for the origin of new genes.

摘要

通过各种分子机制产生的新基因是理解遗传系统进化的重要组成部分。我们研究了果蝇中通过逆转座产生的基因的起源模式。我们在整个黑腹果蝇基因组中搜索此类新的逆转录基因，并通过实验分析它们的功能和进化过程。通过表达、替代和群体遗传学分析揭示，这些逆转录基因具有功能，其起源呈现出惊人的不对称模式。起源于X染色体并逆转座到常染色体的逆转录基因数量显著过剩；从常染色体逆转座而来的新基因则很少。此外，我们发现这些源自X染色体的常染色体逆转录基因大多进化出了睾丸表达模式。这些观察结果可能是由于自然选择有利于那些转移到常染色体并避免精子发生过程中X染色体失活的新逆转录基因，这表明基因组位置对新基因的起源具有重要作用。

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