Balancing selection and recombination drive genetic variation at MHC class I genes in the giant panda  

作　　者：于方鉴 朱英 熊铁一 万秋红 张和民 

机构地区：[1]College of Life Sciences, Zhejiang University [2]Sichuan Provincial Laboratory for Natural Resources Protection and Sustainable Utilization, Sichuan Nature Resources Science Academy [3]China Research and Conservation Center for the Giant Panda

出　　处：《Science Bulletin》2015年第1期136-138,共3页科学通报（英文版）

基　　金：supported by a special grant(SG1411)for the giant panda from the State Forestry Administration of China

摘　　要：Major histocompatibility complex （MHC） is a family of highly polymorphic genes activating adaptive immunity in vertebrates. However, the underlying mecha- nism of MHC evolution is still not fully understood. In this study, we investigated genetic variation of three classical MHC class I genes in the giant panda （Ailuropoda mela- noleuca） and tested for selection effect and recombination event across exonic and intronic sequences to understand maintenance mechanism of polymorphism at Aime-MHC class I genes. In total, we isolated 21 MHC class I haplotypes （exon 2-intron 2-exon 3） from 46 captive giant pandas, of which eight were for Aime-C, seven for Aime-I and six for Aime-L; however, we only identified six unique sequences from these haplotypes. The subsequent maximum-likeli- hood and Chi-square analyses both detected evidence of recombination acting on the 21 haplotypes. These results indicate that the giant panda still retains a relatively high adaptive variation at Aime-MHC-I genes, and that the intronic segments have been homogenized along evolu- tionary time by recombination and subsequent genetic drift.We calculated nucleotide substitution rates of the antigen- binding regions （exons 2 and 3） and the noncoding intron 2, and found two pieces of evidence supporting the presence of balancing selection in the giant panda： an excess of nonsynonymous over synonymous substitutions at the antigen-binding sites, and an obviously higher synonymous substitutions in the exons than nucleotide substitutions in the intron. Thus, this study reveals that balancing selection and recombination together shape the diversity pattern at Aime- MHC-I loci of the giant panda.Major histocompatibility complex(MHC)是脊椎动物免疫系统中负责抗原呈递的基因家族,其多态性维持机制一直是学术界的研究热点.多种进化动力参与维持MHC的适应性多态,导致物种间的MHC多态性维持机制各有千秋.本文通过检测大熊猫I类MHC的遗传变异,分析外显子和内含子区段的选择效应和重组事件,发现卧龙圈养大熊猫具有较高的环境生存能力,同时揭示平衡选择和重组作用共同驱动大熊猫I类MHC基因的变异能力.

关 键 词：dN/ds Intron homogenization Recombination MHC Giant panda 

分 类 号：Q953[生物学—动物学]