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Independent Birth of a Novel TRIMCyp in Tupaia belangeri with a Divergent Function from Its Paralog TRIM5
Mu D1,2; Yang H3; Zhu JW1,2; Liu FL1; Tian RR1,2; Zheng HY1,4; Han JB1; Shi P*3; Zheng YT*1,2,5
2014
发表期刊MOLECULAR BIOLOGY AND EVOLUTION
卷号33期号:11页码:2985-2997
摘要

The origin of novel genes and their evolutionary fates are long-standing questions in evolutionary biology. These questions become more complicated for genes conserved across various lineages, such as TRIM5, an antiretroviral restriction factor and a retrovirus capsid sensor in immune signaling. TRIM5 has been subjected to numerous pathogenic challenges and undergone dynamic evolution, making it an excellent example for studying gene diversification. Previous studies among several species showed that TRIM5 gained genetic and functional novelty in a lineage-specific manner, either through gene duplication or a cyclophilin A retrotransposing into the TRIM5 locus, creating the gene fusion known as TRIM5-Cyclophilin A (TRIMCyp). To date, the general pattern of TRIM5 across the mammalian lineage remains elusive. In this study, we surveyed 36 mammalian genomes to verify a potentially novel TRIM5 pattern that uniquely seems to have occurred in tree shrews (Tupaia belangeri), and found that both gene duplication and retrotransposition worked jointly to form a specific TRIM5/TRIMCyp cluster not found among other mammals. Evolutionary analyses showed that tree shrew TRIMCyp (tsTRIMCyp) originated independently in comparison with previously reported TRIMCyps and underwent strong positive selection, whereas no signal of positive selection was detected for other tree shrew TRIM5 (tsTRIM5) genes. Functional assay results suggest a functional divergence between tsTRIMCyp and its closest paralog TRIM5-4, likely reflecting different fates under diverse evolutionary forces. These findings present a rare example of novel gene origination resulting from a combination of gene duplication, retrotransposition, and exon shuffling processes, providing a new paradigm to study genetic innovations and evolutionary fates of duplicated genes.

收录类别SCIE
语种英语
文献类型期刊论文
条目标识符http://ir.kiz.ac.cn/handle/152453/9256
专题科研部门_分子免疫药理学(郑永唐)
科研部门_动物模型与人类重大疾病机理重点实验室
遗传资源与进化国家重点实验室
科研部门_进化与功能基因组学(施鹏)
中国科学院昆明灵长类研究中心
作者单位1.Key Laboratory of Animal Models and Human Disease Mechanisms of the Chinese Academy of Sciences & Yunnan Province, Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, Yunnan, China
2.Kunming College of Life Science, University of Chinese Academy of Sciences, Kunming, Yunnan, China
3.State Key Laboratory of Genetic Resources and Evolution, Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, Yunnan, China
4.University of Science and Technology of China, Hefei, China
5.Kunming Primate Research Center, Chinese Academy of Sciences, Kunming, Yunnan, China
推荐引用方式
GB/T 7714
Mu D,Yang H,Zhu JW,et al. Independent Birth of a Novel TRIMCyp in Tupaia belangeri with a Divergent Function from Its Paralog TRIM5[J]. MOLECULAR BIOLOGY AND EVOLUTION,2014,33(11):2985-2997.
APA Mu D.,Yang H.,Zhu JW.,Liu FL.,Tian RR.,...&Zheng YT*.(2014).Independent Birth of a Novel TRIMCyp in Tupaia belangeri with a Divergent Function from Its Paralog TRIM5.MOLECULAR BIOLOGY AND EVOLUTION,33(11),2985-2997.
MLA Mu D,et al."Independent Birth of a Novel TRIMCyp in Tupaia belangeri with a Divergent Function from Its Paralog TRIM5".MOLECULAR BIOLOGY AND EVOLUTION 33.11(2014):2985-2997.
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