昆明城郊中国树鼩群体线粒体DNA遗传多样性

由于树鼩是灵长类动物的近亲,且具有体型小、繁殖周期短、饲养管理成本低等优点,长期以来被认为有望替代灵长类动物用于人类疾病的动物模型研究.然而,目前对树鼩的群体遗传结构还知之甚少,这极大地限制了其在疾病动物模型研究的应用,也是其品系资源创制的瓶颈.本研究通过分析80只采自于云南省昆明周边地区的野生树鼩(Tupaia belangeri chinensis)线粒体DNA(mtDNA)多态性,结合国外报道的2个树鼩(Tupaia belangeri)序列比较后发现,在604 bp的mtDNA控制区片段中兵检测到29个核苷酸替代变异,这些变异共界定了13种单倍型,表现较高的群体遗传多样度.另外,昆明地区的树鼩与国外报道的2个树鼩间存在较大的遗传分化,mtDNA控制区单倍型之间的核苷酸替换数大于18个,远高于昆明地区树鼢群体内部不同单倍型之间的差异.选择含有代表性的mtDNA控制区单倍型的17个昆明地区树鼩个体进一步测定了细胞色素b基因片段(1134 bp),结合前人报道的数据分析,结果进一步支持mtDNA控制区数据反映的遗传格局及揭示的昆明地区树询与国外报道树鼩之间的明显差异.本研究结果提示,昆明地区树鼩与国外树鼩之间存在较大遗传差异,在将树鼩用于人类疾病动物模型研究中要注意这些遗传差别.昆明城郊的树鼩群体具有较高的遗传多样度,在开展近交系建立等工作时须考虑选取群体内部具有代表性的mtDNA世系.

Abstract：

Due to their special phylogenetic position in the Euarchontoglires and close affinity to primates, tree shrews have been proposed as an alternative experimental animal to primates in biomedical research. However, the population genetic structure of tree shrews has largely remained unknown and this has hindered the development of tree shrew breeding and selection. Here we sampled 80 Chinese tree shrews (Tupaia belangeri chinensis) in Kunming, China, and analyzed partial mtDNA control region sequence variation. Based on our samples and two published sequences from northern tree shrews (T. belangeri), we identified 29 substitutions in the mtDNA control region fragment (～ 604 bp)across 82 individuals and defined 13 hapiotypes. Seventeen samples were selected for sequencing of the cytochrome b (Cyt b; 1134 bp) gene based on control region sequence variation and were analyzed in combination with 34 published sequences to solidify the phylogenetic pattern obtained from control region data. Overall, tree shrews from Kunming have high genetic diversity and present a remarkable long genetic distance to the two reported northern tree shrews outside China. Our results provide some caution when using tree shrews to establish animal models because of this apparent genetic difference. In addition, the high genetic diversity of Chinese tree shrews inhabiting Kunming suggests that systematic genetic investigations should be conducted before establishing an inbred strain for medical and biological research.

Genetic diversity and matrilineal structure in Chinese tree shrews inhabiting Kunming, China

Due to their special phylogenetic position in the Euarchontoglires and close affinity to primates, tree shrews have been proposed as an alternative experimental animal to primates in biomedical research. However, the population genetic structure of tree shrews has largely remained unknown and this has hindered the development of tree shrew breeding and selection. Here we sampled 80 Chinese tree shrews (Tupaia belangeri chinensis) in Kunming, China, and analyzed partial mtDNA control region sequence variation. Based on our samples and two published sequences from northern tree shrews (T. belangeri), we identified 29 substitutions in the mtDNA control region fragment (～ 604 bp)across 82 individuals and defined 13 hapiotypes. Seventeen samples were selected for sequencing of the cytochrome b (Cyt b; 1134 bp) gene based on control region sequence variation and were analyzed in combination with 34 published sequences to solidify the phylogenetic pattern obtained from control region data. Overall, tree shrews from Kunming have high genetic diversity and present a remarkable long genetic distance to the two reported northern tree shrews outside China. Our results provide some caution when using tree shrews to establish animal models because of this apparent genetic difference. In addition, the high genetic diversity of Chinese tree shrews inhabiting Kunming suggests that systematic genetic investigations should be conducted before establishing an inbred strain for medical and biological research.