Genome-wide signatures of mammalian skin covering evolution

被引:0
|
作者
Peng Cao
Qinlong Dai
Cao Deng
Xiang Zhao
Shishan Qin
Jian Yang
Ran Ju
Zhiwen Wang
Guoqing Lu
Xiaodong Gu
Zhisong Yang
Lifeng Zhu
机构
[1] Nanjing University of Chinese Medicine,Key Laboratory of Drug Targets and Drug Leads for Degenerative Diseases, Affiliated Hospital of Integrated Traditional Chinese and Western Medicine
[2] Nanjing Normal University,College of Life Sciences
[3] University of Nebraska at Omaha,Key Laboratory of Southwest China Wildlife Resources Conservation (Ministry of Education)
[4] DNA Stories Bioinformatics Center,undefined
[5] PubBio-Tech Services Corporation,undefined
[6] Sichuan Station of Wildlife survey and Management,undefined
[7] Nanjing Foreign Language School Xianlin Branch,undefined
[8] China West Normal University,undefined
[9] Shimian Research Center of Giant Panda Small Population Conservation and Rejuvenation,undefined
[10] Liziping Natural Reserve,undefined
来源
Science China Life Sciences | 2021年 / 64卷
关键词
comparative genomics; skin coverings; spiny mammals; hairless mammals; scaly mammals; convergent evolution;
D O I
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中图分类号
学科分类号
摘要
Animal body coverings provide protection and allow for adaptation to environmental pressures such as heat, ultraviolet radiation, water loss, and mechanical forces. Here, using a comparative genomics analysis of 39 mammal species spanning three skin covering types (hairless, scaly and spiny), we found some genes (e.g., UVRAG, POLH, and XPC) involved in skin inflammation, skin innate immunity, and ultraviolet radiation damage repair were under selection in hairless ocean mammals (e.g., whales and manatees). These signatures might be associated with a high risk of skin diseases from pathogens and ultraviolet radiation. Moreover, the genomes from three spiny mammal species shared convergent genomic regions (EPHB2, EPHA4, and NIN) and unique positively selected genes (FZD6, INVS, and CDC42) involved in skin cell polarity, which might be related to the development of spines. In scaly mammals, the shared convergent genomic regions (e.g., FREM2) were associated with the integrity of the skin epithelium and epidermal adhesion. This study identifies potential convergent genomic features among distantly related mammals with the same skin covering type.
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页码:1765 / 1780
页数:15
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