[哺乳动物主要组织相容性复合体(MHC)及其在珍稀物种研究中的重要性(以Felidae科为例)]。

Pub Date : 2014-07-01
K K Tarasian, P A Sorokin, M V Kholodova, V V Rozhnov
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引用次数: 0

摘要

主要组织相容性复合体(MHC)似乎是解决各种种群关系遗传学任务的合适工具。关于免疫遗传基础的信息有助于了解进化历史和评估所研究种群/物种生存的现状和前景。一方面,MHC变异是通过病原体依赖机制维持的,即对环境中存在的疾病具有抗性的个体进行定向选择,以及对携带MHC基因不寻常或罕见等位基因的个体进行平衡选择。另一方面,MHC基因对个体的繁殖效率有影响。由于MHC多基因的存在,其研究需要采用在某一基因片段扩增和测序之间引入额外阶段的方法。在本文中,考虑了不同的等位基因分离技术,以及基于微卫星位点检测的MHC变异性分析的简化版本。尽管MHC具有很高的信息价值,但在动物学研究中仍未得到应有的应用。以包含较多濒危物种的Felidae科掠食性哺乳动物为例,我们发现大多数关于野猫MHC的研究都是描述性的,只有很少的研究涉及基因比较分析。对非模式物种主要组织相容性复合体研究的兴趣的增加,不仅有助于解决该科进化和系统发育结构的基本问题,而且有助于规划各种人为胁迫下珍稀濒危物种的保护措施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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[Major histocompatibility complex (MHC) in mammals' and its importance for studies of rare species (with Felidae family as an example)].

Major histocompatibility complex (MHC) appears to be a suitable tool for solving various tasks of popu- lationgenetics. Information on genetic basis of immunity facilitates understanding of evolutionary his- tory and assessment of current state and prospects of studied population/species survival. On the one hand, MHC variability is maintained through pathogen dependent mechanisms, i.e., directional selection of individuals resistant to diseases, that are present in the environment and balancing selection which gives advantage to those individuals carrying unusual or rare alleles of MHC genes. On the other hand, MHC genes have an influence on reproduction efficiency of individuals. Because of MHC polygeny, its studying requires an application of methods that introduce additional stages between amplification of a certain gene segment and its sequencing. In the article, different tech- niques of allele separation are considered, as well as a simplified version of MHC variability analysis based on the examination of microsatellite loci. Despite the high information value of MHC, it is still not used in zoological studies as often as it deserves. Using as an example predatory mammals of Felidae family which contains quite a few threatened species, we show that a majority of studies on MHC in wild cats is descriptive ones and only few of them deal with genes comparative analysis. The rise of interest to the studies of major histocompatibility complex in non-model species may help not only in solving the fundamental problems of evolution and phylogenetic structure of the family but also in planning the measures for conservation of rare and endangered species exposed to various anthropogenic stresses.

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