恒河猴与食蟹猴微卫星DNA多态性的比较分析

目的分析恒河猴和食蟹猴群体间的遗传多样性,确立一种对恒河猴和食蟹猴种群个体的遗传鉴别方法。方法利用聚合酶链反应（PCR）扩增技术采用15个多态性微卫星DNA位点对50只恒河猴和50只食蟹猴个体进行了DNA多态性的分析,对比两群体间等位基因数目差异。结果筛选的15个具有显著多态性的微卫星DNA位点对恒河猴和食蟹猴种群可以进行DNA多态性分析,其等位基因数目均在7个以上,且两群体间有11个位点的等位基因数存在一定的差异。结论利用这些多态性微卫星DNA位点建立一种有效鉴别恒河猴和食蟹猴种群遗传背景的方法具有一定的可行性。     

蜜蜂线粒体DNA在遗传分析中的应用

线粒体DNA是动物细胞核外唯一的遗传物质,具有结构简单、进化速度快、母系遗传和基因重组率小等特点。文章在介绍蜜蜂线粒体DNA的结构大小及其多态性的研究的基础上,对其在蜜蜂的种间多态性、亚种间及亚种内多态性、起源进化、群体遗传结构及基因流动、亚种及类型的分类等方面的研究应用进行阐述。     

中国东部栗疫病菌群体的遗传分化

本实验采用RFLP技术,对中国东部栗疫病菌(Cryphonectria parasitica)进行了群体遗传结构的研究。313个参试菌株来自10个省(市)的16个群体(子群体),样本分布在北纬24°N—41°N。各菌株的DNA分别用限制性内切酶Pst Ⅰ和EcoR Ⅰ酶切,先后以10个低拷贝DNA探针和1个DNA指纹图谱探针进行了杂交和检测。结果表明,两个探针(pCB29和pMS29.1)的杂交图谱呈单态性;探针pCB19的杂交图谱显示,菌株DNA以PstⅠ酶切的为单态性,以EcoR Ⅰ酶切的则呈多态性;其他7个低拷贝探针的杂交图谱都呈多态性(Pst Ⅰ酶切)、指纹图谱探针的检测结果显示,辽宁凤城群体的菌株与中国东部其他群体的菌株相比,具有更多的限制性杂交片段,菌株间的遗传变异性也更大。     

中国东部栗疫病菌群体的遗传分化*

本实验采用RFLP技术,对中国东部栗疫病菌(Cryphonectria parasitica)进行了群体遗传结构的研究。313个参试菌株来自10个省(市)的16个群体(子群体),样本分布在北纬24°N—41°N。各菌株的DNA分别用限制性内切酶Pst Ⅰ和EcoR Ⅰ酶切,先后以10个低拷贝DNA探针和1个DNA指纹图谱探针进行了杂交和检测。结果表明,两个探针(pCB29和pMS29.1)的杂交图谱呈单态性;探针pCB19的杂交图谱显示,菌株DNA以PstⅠ酶切的为单态性,以EcoR Ⅰ酶切的则呈多态性;其他7个低拷贝探针的杂交图谱都呈多态性(Pst Ⅰ酶切)、指纹图谱探针的检测结果显示,辽宁凤城群体的菌株与中国东部其他群体的菌株相比,具有更多的限制性杂交片段,菌株间的遗传变异性也更大。     

中国西南地区重要木本油料植物扁核木的遗传结构及成因

扁核木(Prinsepia utilis)为中国西南地区温带森林重要的木本油料植物, 但对其野生资源种群遗传结构及成因的了解严重不足。我们采用核微卫星分子标记, 对32个扁核木自然种群共377个个体的群体演化历史进行了探讨, 并评估其遗传资源。研究发现扁核木种群自西向东可划分4个遗传群组, 即喜马拉雅、横断山以及云贵高原西部和东部群组。其中, 最大的遗传分化存在于喜马拉雅和其他区域种群间。与喜马拉雅和云贵高原东部群组相比, 横断山和云贵高原西部群组混合了其他群组的遗传成分。种群动态历史分析显示中部2个群组在喜马拉雅和云贵高原东部群组形成后形成, 不同群组间的分化均发生在更新世晚期。地理隔离和环境隔离分析表明扁核木种群间的遗传分化主要由环境差异导致。环境差异分析显示不同群组间的气候存在不同程度的差异, 其中喜马拉雅和云贵高原东部群组与中部2个群组间的差异显著。此外, 结合该物种不同时期的生态位模拟数据, 我们认为喜马拉雅和云贵高原地区的遗传资源在未来需要优先保护。     

内蒙古地区亚洲小车蝗不同地理种群的RAPD分析

采用随机扩增多态性DNA(RAPD)技术对内蒙古地区亚洲小车蝗Oedaleus asiaticus(B.-bienko)9个不同地理种群90个个体进行扩增,8条随机引物扩增共产生了78条带,多态性片段为62条。对Nei′s基因多样性指数和遗传距离进行分析,结果表明:种群间的遗传分化系数为0.2343,即23.43%的遗传变异存在于种群间,种群内的遗传分化系数为0.7657,即76.57%的遗传多样性存在于种群内,群体内遗传多样性大于群体间遗传多样性。用NJ法对这3个种群的Nei′s遗传距离作聚类分析,结果表明亚洲小车蝗不同种群的遗传分化程度与地理距离具有正相关关系。     

中国地方黄牛的遗传多样性*

中国黄牛起源复杂,我国地方黄牛群体不同品种在毛色、形态外貌、细胞遗传学、血液蛋白座位分析均表现出多样性。计算我国黄牛群体6个毛色座位平均杂合度和6个血液蛋白座位平均杂合度分别为0.3144和0.4873,表明我国地方黄牛群体的遗传多样性非常丰富。计算我国黄牛群体的6个毛色座位和6个血液蛋白座位的基因分化系数分别为0.3404和0.095,表明我国黄牛群体毛色差异中有34.04％是由品种间的差异造成的。血液蛋白的多态性有9.5％是由品种间的差异造成的。我国黄牛群体的遗传多样性主要来自品种内的遗传多样性。保存我国黄牛品种资源多样性不仅要从整个中国黄牛群体上考虑,而且要针对每个品种（或类群）进行保种。     

滇西北地区冬虫夏草和阔孢虫草的遗传分化研究

应用随机扩增多态性DNA（RAPD）技术对来自云南西北部高黎贡山和丽江玉龙雪山的6个冬虫夏草Cordycepssinensis（Berk．）Sacc．,来自德钦地区三个地方的8个阔孢虫草C.crassisporaZang,YangetLi以及来自云南昆明的一个蛹虫草C.militaris（Vuill）Fr．进行分析。18个随机引物获得的RAPD谱带清晰并呈现多态。遗传距离分析表明,冬虫夏草／阔孢虫草与蛹虫草之间存在显著的遗传差异。冬虫夏草与阔孢虫草之间的遗传差异较为明显。在同种虫草个体中,来自同一地方的样本间遗传差异较小,不同地方的样本间遗传差异较大。说明云南虫草的不同地理群体间存在遗传分化。应用UPGMA和NJ法构建的分子系统树将来自不同地方的冬虫夏草及阔孢虫草分别聚在一起,提示RAPD标记在虫草群体中有显著的地区特异性。RAPD作为有效的遗传标记,可在分子水平上研究虫草属的遗传分化、起源和系统演化等。     

滇西北地区冬虫夏草和阔孢虫草的遗传分化研究*

应用随机扩增多态性DNA（RAPD）技术对来自云南西北部高黎贡山和丽江玉龙雪山的6个冬虫夏草Cordycepssinensis（Berk．）Sacc．,来自德钦地区三个地方的8个阔孢虫草C.crassisporaZang,YangetLi以及来自云南昆明的一个蛹虫草C.militaris（Vuill）Fr．进行分析。18个随机引物获得的RAPD谱带清晰并呈现多态。遗传距离分析表明,冬虫夏草／阔孢虫草与蛹虫草之间存在显著的遗传差异。冬虫夏草与阔孢虫草之间的遗传差异较为明显。在同种虫草个体中,来自同一地方的样本间遗传差异较小,不同地方的样本间遗传差异较大。说明云南虫草的不同地理群体间存在遗传分化。应用UPGMA和NJ法构建的分子系统树将来自不同地方的冬虫夏草及阔孢虫草分别聚在一起,提示RAPD标记在虫草群体中有显著的地区特异性。RAPD作为有效的遗传标记,可在分子水平上研究虫草属的遗传分化、起源和系统演化等。     

亚欧美栗疫病菌群体的遗传多样性

从 12 0个随机引物中筛选出条带清晰、主带明显、重复性好的 9个引物 ,对来自不同地域和寄主的 7个群体的 14 2个栗疫病菌菌株进行 RAPD分析。 9个引物共扩增出条带 12 4条 ,其中多态性条带 111条 ,多态性比率为 89.5 2 %。利用 Popgen3.2软件对供试群体进行遗传多样性分析和 UPGMA聚类。结果表明 ,中国地区 4个群体间的遗传相似性较大 ,与美国、意大利和日本群体间的相似性较小 ;美国和意大利群体间的遗传相似性较大 ,且它们与日本群体间的相似性大于与中国群体间的相似性。病原菌群体的遗传变异率为 0 .2 35 1,其中在地区水平上 ,82 .34%由群体内的变异引起 ,17.6 6 %由群体间的差异引起 ,群体间的基因流动值为 2 .3311;而在寄主水平上 ,则 79.4 2 %由群体内的变异引起 ,2 0 .5 8%由群体间的差异引起 ,群体间的基因流动值为 1.92 97     

Genetic differentiation of the green spruce aphid (Elatobium abietinum Walker), a recent invader to Iceland

1 The RAPD method (Random Amplified Polymorphic DNA) was used to investigate genetic diversity of the green spruce aphid, Elatobium abietinum Walker, a pest introduced recently to Iceland. 2 This aphid in Iceland comprised two polymorphic populations, one in the east and the other in the west of the country. The genetic variation between sites within a population was continuous and appeared to be in good agreement with geographical distances. 3 In the eastern population the variation was greater between sites than within sites, whereas in the western population the pattern of variation appeared to be the opposite. This overall greater genetic variation in the eastern population could be due to its having been colonized earlier than the western one. 4 The study also demonstrated a close relationship between the green spruce aphid in Iceland and aphids from Denmark, which agrees with their assumed origin. The differences in introduction time, adaptation and competitiveness between the two Icelandic populations are discussed.     

Regionally high rates of hybridization and introgression in German wildcat populations (Felis silvestris, Carnivora, Felidae)

While the western populations of the wildcat ( Felis silvestris silvestris ) in Germany come into contact with wildcats in France and Switzerland, the eastern distribution area is geographically completely isolated and consists of scattered subpopulations. To investigate population structure, evolutionary relationships and degree of hybridization with domestic cats we analysed the mitochondrial control region of 86 cats in combination with 11 microsatellite loci of 149 cats. According to our microsatellite data, German wildcats are divided into two separate populations corresponding to the western and eastern distribution areas. We found no indication of a further subdivision of the eastern population. German wildcat populations are genetically distinct from domestic cats in the main, but we identified 18.4% of the whole wildcat sample as being of hybrid origin, corresponding to 4.2% of the eastern and 42.9% of the western wildcat population, and 2.7% of the domestic cat sample. The mitochondrial haplotypes form a network of three connected clusters and reveal a high level of genetic diversity, especially within the eastern population. Our findings are explained at best in terms of continuous introgression between domestic cats and wildcat populations and differing degrees of recent hybridization in the various populations. Future conservation efforts should focus on preserving the existing gene flow between the isolated distribution areas, but also on preventing the spread of hybrids and limiting the habitat alterations that lead to increased contact with domestic cats. In conclusion we discuss possible evolutionary reasons for the still traceable genetic integrity of the wildcat despite its long history of interbreeding.     

Molecular evolution and population genetics of Greater Caribbean green turtles (Chelonia mydas) as inferred from mitochondrial DNA control region sequences

The molecular evolution and population genetics of migratory green turtles (Chelonia mydas) in the Greater Caribbean were examined with mitochondrial DNA (mtDNA) control region I sequences. A total of 488 base positions (bp) per individual were aligned for 44 individuals from four nesting populations in Florida, Costa Rica, Aves Island (Venezuela), and Surinam. Twelve sequence polymorphisms were detected, representing ten transitions, one transversion, and one 10-bp repeat. Sequence analyses of within- and between-population diversity revealed a deep divergence between western and eastern Caribbean nesting colonies and an inverse relationship between reproductive female population size and mtDNA diversity. In small populations, genetic admixture was important to maintaining high diversity, whereas larger populations appear to have experienced historical bottlenecks or resulted from founder effects. Mitochondrial DNA sequences of the control region offer an order of magnitude greater resolution than restriction site data for addressing questions about mtDNA variation, both within and between populations of green turtles.     

Phylogeography of Scots pine in Europe and Asia based on mtDNA polymorphisms

We analyzed mitochondrial DNA polymorphisms to search for evidence of the genetic structure and patterns of admixture in 124 populations (N = 1407 trees) across the distribution of Scots pine in Europe and Asia. The markers revealed only a weak population structure in Central and Eastern Europe and suggested postglacial expansion to middle and northern latitudes from multiple sources. Major mitotype variants include the remnants of Scots pine at the north-western extreme of the distribution in the Scottish Highlands; two main variants (western and central European) that contributed to the contemporary populations in Norway and Sweden; the central-eastern European variant present in the Balkan region, Finland, and Russian Karelia; and a separate one common to most eastern European parts of Russia and western Siberia. We also observe signatures of a distinct refugium located in the northern parts of the Black Sea basin that contributed to the patterns of genetic variation observed in several populations in the Balkans, Ukraine, and western Russia. Some common haplotypes of putative ancient origin were shared among distant populations from Europe and Asia, including the most southern refugial stands that did not participate in postglacial recolonization of northern latitudes. The study indicates different genetic lineages of the species in Europe and provides a set of genetic markers for its finer-scale population history and divergence inference.     

Mitochondrial DNA phylogeography of western lowland gorillas (Gorilla gorilla gorilla)

The geographical distribution of genetic variation within western lowland gorillas (Gorilla gorilla gorilla) was examined to clarify the population genetic structure and recent evolutionary history of this group. DNA was amplified from shed hair collected from sites across the range of the three traditionally recognized gorilla subspecies: western lowland (G. g. gorilla), eastern lowland (G. g. graueri) and mountain (G. g. beringei) gorillas. Nucleotide sequence variation was examined in the first hypervariable domain of the mitochondrial control region and was much higher in western lowland gorillas than in either of the other two subspecies. In addition to recapitulating the major evolutionary split between eastern and western lowland gorillas, phylogenetic analysis indicates a phylogeographical division within western lowland gorillas, one haplogroup comprising gorilla populations from eastern Nigeria through to southeast Cameroon and a second comprising all other western lowland gorillas. Within this second haplogroup, haplotypes appear to be partitioned geographically into three subgroups: (i) Equatorial Guinea, (ii) Central African Republic, and (iii) Gabon and adjacent Congo. There is also evidence of limited haplotype admixture in northeastern Gabon and southeast Cameroon. The phylogeographical patterns are broadly consistent with those predicted by current Pleistocene refuge hypotheses for the region and suggest that historical events have played an important role in shaping the population structure of this subspecies.     

Patterns of isozyme variation in relation to population size,isolation, and phytogeographic history in royal catchfly (Silene regia; Caryophyllaceae)

The distribution of genetic variation within and among plant populations is influenced by both contemporary and historical factors. I used isozyme analysis of band phenotypes to examine genetic structure in the rare prairie forb Silene regia. Relationships between current-day population size, isolation, and phenotypic variation were assessed for 18 populations in two regions with differing postglacial history. Western populations from unglaciated southern Missouri and Arkansas were more genetically diverse based on the Shannon-Weaver index (H) and a polymorphic index than were more eastern populations. These differences may be due to loss of variation with repeated founding of new populations in previously glaciated sites in Indiana and Ohio. Within the western region, population size was not significantly correlated with genetic variation. In the east, size was correlated with Shannon-Weaver diversity. There was no relationship between variation and isolation in either region, but eastern populations were slightly more differentiated. Greater among-population differentiation and the demonstrated connection between population size and variation in the eastern sites may reflect lower levels of interpopulation gene flow in the fragmented remnant prairies of Indiana and Ohio.     

Genetic variation and population structure of the carpet shell clam <Emphasis Type="Italic">Ruditapes decussatus</Emphasis> along the Tunisian coast inferred from mtDNA and ITS1 sequence analysis

Surveys of allozyme polymorphisms in the carpet shell clam Ruditapes decussatus have revealed sharp genetic differentiation of populations. Analysis of population structure in this species has now been extended to include nuclear and mitochondrial genes. A partial sequence of a mitochondrial COI gene and of the internal transcribed spacer region (ITS-1) were used to study haplotype distribution, the pattern of gene flow, and population genetic structure of R. decussatus. The samples were collected from twelve populations from the eastern and western Mediterranean coasts of Tunisia, one from Concarneau and one from Thau. A total of twenty and twenty-one haplotypes were detected in the examined COI and ITS1 regions respectively. The study revealed higher levels of genetic diversity for ITS1 compared to COI. The analysis of haplotype frequency distribution and molecular variation indicated that the majority of the genetic variation was distributed within populations (93% and 86% for COI and ITS1 respectively). No significant differentiation was found among eastern and western groups on either side of the Siculo-Tunisian strait. However, distinct and significant clinal changes in haplotypes frequencies between eastern and western samples were found at the most frequent COI haplotype and at three out of five major ITS1 haplotypes. These results suggest the relative importance of historical processes and contemporary hydrodynamic features on the observed patterns of genetic structure.     

Morphometric and genetic differentiation among populations of flat‐headed cusimanse (Crossarchus platycephalus) in Nigeria

Geographic barriers can partition genetic diversity among populations and drive evolutionary divergence between populations, promoting the speciation process and affecting conservation goals. We integrated morphological and genomic data to assess the distribution of variation in the flat‐headed cusimanse (Crossarchus platycephalus), a species of least conservation concern, on either side of the River Niger in Nigeria. Ecological disturbances affect the conservation status of many other animals in this region. The two populations were differentiated in the snout and fore limbs, with greater morphological diversity in the western population. We used Restriction site Associated DNA sequencing (RAD‐seq) and identified two genotypic clusters in a STRUCTURE analysis. Individuals from the eastern population are almost entirely assigned to one cluster, whereas genotypes from the western population are a mixture of the two clusters. The population from west of the River Niger also had higher heterozygosity. The morphological and population genetic data are therefore in agreement that the population from west of the River Niger is more diverse than the eastern population, and the eastern population contains a subset of the genetic variation found in the western population. Our results demonstrate that combining morphological and genotypic measures of diversity can provide a congruent picture of the distribution of intraspecific variation. The results also suggest that future work should explore the role of the River Niger as a natural barrier to migration in Nigeria.     

Genetic diversity among African great apes based on mitochondrial DNA sequences

The mitochondrial DNA D-Loop region was sequenced, analyzed and used as a molecular marker for populations of chimpanzee (Pan troglodytes), bonobo (P. paniscus) and gorilla (Gorilla gorilla and G. beringei), and also compared with data previously reported for these taxa. In Gorilla, a main disjunction between western (G. gorilla) and eastern (G. beringei, including G. b. graueri) species was observed, as well as high mitochondrial diversity within the western species. The genetic distance values within G. gorilla (0.14) were higher than those between subspecies (eastern lowland and mountain 0.12). Likewise, values of genetic diversity within this species (0.05) were higher than those between species (western and eastern lowland gorilla 0.04). Similarly, in genus Pan a main differentiation between western (P. t. verus) and central forms (P. t. troglodytes and P. t. schweinfurthii) was observed. The obtained values of genetic distance and genetic diversity revealed that the central subspecies are closer to each other than either of them is to the western one, while bonobos composed a distinct clade that expresses a well-defined specific identity. The current distribution, phylogeny and levels of genetic diversity in African great ape populations are consistent with the hypothesis that Pleistocene climatic events led to cyclical periods of isolation in forest refugia followed by expansion and dispersal. The implications of this high level of genetic diversity for taxonomic classification, wildlife management and conservation are discussed.     

The geographic apportionment of mitochondrial genetic diversity in east African chimpanzees, Pan troglodytes schweinfurthii

This study is a geographically systematic genetic survey of the easternmost subspecies of chimpanzee, Pan troglodytes schweinfurthii. DNA was noninvasively collected in the form of shed hair from chimpanzees of known origin in Uganda, Rwanda, Tanzania, and Zaire. Two hundred sixty-two DNA sequences from hypervariable region 1 of which of the mitochondrial control region were generated. Eastern chimpanzees display levels of mitochondrial genetic variation which are low and which are similar to levels observed in humans (Homo sapiens). Also like humans, between 80% and 90% of the genetic variability within the eastern chimpanzees is apportioned within populations. Spatial autocorrelation analysis shows that genetic similarity between eastern chimpanzees decreases clinically with distance, in a pattern remarkably similar to one seen for humans separated by equivalent geographic distances. Eastern chimpanzee mismatch distributions (frequency distributions of pairwise genetic differences between individuals) are similar in shape to those for humans, implying similar population histories of recent demographic expansion. The overall pattern of genetic variability in eastern chimpanzees is consistent with the hypothesis that the subject has responded demographically to paleoclimatically driven changes in the distribution of eastern African forests during the recent Pleistocene.