青海省东部地区喜马拉雅旱獭种群遗传结构

本研究利用11个微卫星标记对采自青海省东部地区的13个喜马拉雅旱獭（Marmota himalayana）种群149个个体进行了基因分型,并运用种群遗传学方法对其遗传多样性和遗传结构进行分析。结果显示,11个微卫星标记位点共计检测到97个等位基因,各种群的平均观测杂合度和期望杂合度范围分别为0.58~0.82和0.60~0.79,种群遗传多样性水平相对较高;遗传结构分析表明,青海省东部地区的喜马拉雅旱獭种群具有显著的遗传结构,13个地理种群形成了3个遗传聚类群,且3个遗传聚类群与湟水河和黄河上游干流所划分出的地理单元完全一致,因此我们认为湟水河和黄河上游干流是阻碍该地区喜马拉雅旱獭种群进行迁移扩散和基因交流的天然屏障。同时,STRUCTURE分析结果还显示3个遗传聚类群间仍有明显的基因流,AMOVA分析也显示3个聚类群间变异百分比为6.60%,仅略高于聚类群内种群间的变异（4.51%）,而远低于种群内变异水平（88.90%）,表明三个聚类群间的分化程度并不是很深。这说明喜马拉雅旱獭可能通过桥梁或在枯水期等穿越河流进行基因交流。以上结果为该地区的旱獭种群监控和鼠疫防控提供了科学的理论基础。     

喜马拉雅旱獭线粒体DNA控制区遗传多样性及系统发育

喜马拉雅旱獭是青藏高原的优势种,数量多、分布广,全面了解其遗传背景对该地区旱獭资源的保护与合理利用具有重要的意义。本研究以青藏高原云南、西藏和青海三省区共13个地理种群计258只旱獭为研究对象,PCR扩增获得线粒体DNA控制区基因部分序列(887 bp),并运用种群遗传学方法进行遗传多样性分析。结果显示:258份样品共发现了84个变异位点(9.40%),定义了68种单倍型,其单倍型多样性(h)平均值为0.968±0.003、核苷酸多样性(π)平均值为0.017 25±0.016 37,种群总体遗传多样性较高。AMOVA方差分析显示13个地理种群间存在着明显的遗传分化(Fst=0.620 67,P<0.001),种群间基因交流多数较低(Nm<1)。基于单倍型构建的系统发育树中13个地理种群的喜马拉雅旱獭聚为两支,其中来自青藏高原西南地区(西藏安多、青海格尔木、青海囊谦、云南迪庆)的18个单倍型聚成一个大的分支(A支),其余50个单倍型聚为一个大的分支(B支),在NETWORK网络图中也可见到相似网络拓扑结构。研究结果显示青藏高原喜马拉雅旱獭种群以唐古拉山脉为界分为两个大的种群,说明地理隔离是影响喜马拉雅旱獭种群动态变化的主要因素。     

利用17个微卫星标记分析鳙鱼的遗传多样性

选用本实验室克隆的17个鳙鱼微卫星分子标记分析四川泸州和江西鄱阳湖的两个种群鳙鱼的遗传多样性及种质特性,计算和统计了杂合度、多态信息含量（PIC）、有效等位基因数、等位基因频率、遗传距离、遗传相似系数、Hardy-Weinberg平衡偏离指数等方面内容。结果表明：选择使用17个微卫星标记,其中有4个为单态标记,13个为多态标记。江西和四川鳙鱼群体每个微卫星位点的平均等位基因数分别为3.325及3.882,平均有效等位基因数分别为3.531及2.676,多态位点百分率分别为82.4及70.5, 17个微卫星标记共有等位基因71个,多态微卫星位点的PIC在0.114~0.960之间变动,平均为0.417 ,两群体位点平均观测杂合度为0.385和0.452,平均期望杂合度为0.360和0.422,两个群体间的遗传相似系数为0.897,群体间的遗传距离为0.109。     

长江中上游两个鲢群体遗传变异的微卫星分析

对长江中上游2个鲢群体使用39个微卫星标记进行了遗传多样性分析, 计算并统计了平均观测等位基因数、平均有效等位基因数、多态信息含量、遗传杂合度、Hardy-Weinberg平衡偏离指数、遗传相似系数、遗传距离等遗传参数。结果表明: 万州鲢和监利鲢群体所检测微卫星位点的平均观测等位基因数分别为6.128和4.974; 平均有效等位基因数分别为4.107和3.395; 多态位点百分率分别为100和94.87; 39个微卫星标记共有等位基因259个, 173个等位基因为两群体所共有; 多态微卫星位点的PIC在0.077~0.865之间变动,平均为0.617; 两群体所检测位点平均观测杂合度为0.834和0.775, 平均期望杂合度为0.713和0.623; 两个群体间的遗传相似系数为0.618, 群体间的遗传距离为0.482。结果显示长江中上游两个鲢群体间存在显著遗传分化, 应隶属于不同的种群。     

白颈长尾雉微卫星多态性的遗传学分析

采用7个微卫星位点遗传标记,对白颈长尾雉(Syrnaticus ellioti)4个地理种群105个个体进行了种群遗传分析。研究发现4个地理种群均偏离Hardy-Weinberg平衡,共检测到62个等位基因,平均等位基因数目为8.86;大多数微卫星位点的观察杂合度值较低,平均为0.504,要明显低于期望杂合度。7个位点的多态信息含量为0.549～0.860,平均为0.712。用无限等位基因模型、逐步突变模型和双相突变模型对4个地理种群的种群瓶颈效应检测,发现各种群近期内都经历过瓶颈效应的影响。地理种群之间的Fst值表明,贵州与湖南地理种群间的分化达到了极显著水平(P<0.001);由Nei氏的无偏遗传距离所构建的邻接树显示,贵州地理种群与湖南地理种群的遗传关系较远。微卫星对不同地理种群的分层分子变异分析(贵州地理种群对其他地理种群)发现:来自地理种群间和组群间的遗传变异量相对较小;而同一地理种群内个体之间的变异量较大(92.84%),且达到显著水平。     

勐养保护区亚洲象微卫星位点筛选及种群遗传多样性分析

本文以亚洲象肌肉样品提出的DNA为模板,从非洲象31个微卫星位点和5个已知亚洲象微卫星位点中筛选勐养亚洲象的微卫星位点,进而对在西双版纳勐养保护区3年采集到的191 份亚洲象粪便样品中提出的DNA进行特异性PCR扩增、基因分型、检测位点信息和遗传多样性分析.结果表明:36个位点中有14个位点能在亚洲象肌肉样品提出的DNA中成功扩增,且经测序证实为微卫星位点.其中9个多态位点能在185份粪便样品DNA中稳定扩增.勐养种群中,3个位点可能偏离Hardy Weubberg平衡,至少8个位点间无明显连锁存在,平均等位基因数3.78±1.72,平均期望杂和度0.32 ± 0.06,平均观察杂和度0.36±0.02,平均多态信息含量0.28 ,说明这9个位点适用于勐养亚洲象的遗传学研究.根据微卫星位点的杂合度和等位基因频率,相比于其他亚洲象种群,勐养亚洲象种群遗传多样性较低且等位基因频率具有特异性.     

无特定病原体金定鸭微卫星DNA遗传多样性分析

目的利用微卫星标记对无特定病原体金定鸭群进行遗传多样性分析。方法采用微卫星标记,对SPF金定鸭种群中71个个体进行遗传多样性分析。结果 SPF金定鸭种群中17个位点上共检测到119个等位基因,每个微卫星上等位基因数介于3~13;该SPF金定鸭群体中有13个位点(PIC0.5)呈现出高度多态,平均杂合度为(0.5816±0.0142),其他位点均呈现出中度多态。仅有5个位点处于Hardy-Weinberg平衡状态,其余12个位点显著偏离Hardy-Weinberg平衡,达到极显著水平(P0.01)。结论该SPF金定鸭群体内均存在丰富的遗传多样性,满足建立封闭群的遗传特征,可以利用该群体继续开展无特定病原体金定鸭封闭群的建立。     

宽口光唇鱼微卫星位点的筛选与特征分析

通过FIASCO法(Fast Isolation by AFLP Sequences Containing Repeats)筛选宽口光唇鱼Acrossocheilus monticola(Günter)基因组微卫星位点,利用生物素标记的寡核苷酸探针(AC)8、(CT)8、(GGT)8、(GATA)8和(GATT)7首次成功构建宽口光唇鱼基因组微卫星富集文库。从文库中共筛选495个克隆测序,成功设计163对微卫星引物,经PCR扩增检测,获得了18个多态性微卫星标记。利用这18对多态性引物,分析了赤水河赤水市宽口光唇鱼种群的遗传多样性,数据显示:18对多态性微卫星引物的等位基因数为8～31个,平均等位基因数为19.6个,平均期望杂合度为0.8701,平均观测杂合度为0.8312,其中引物Am07、Am35、Am47、Am69、Am78和Am127显著偏离哈迪温伯格平衡(P<0.05),以上数据表明赤水河赤水市宽口光唇鱼种群的遗传多样性水平较高。筛选的微卫星标记对于宽口光唇鱼的遗传背景分析和生物种质资源的保护有重要作用。     

雪豹的微卫星DNA遗传多样性

利用微卫星DNA标记,对来自青海囊谦县、治多县以及甘肃阿克塞县3个地区的36份雪豹(Panthera uncia)粪便DNA样品进行了遗传多样性研究。结果显示,在8个微卫星位点上共检测到57个等位基因,有效等位基因数为2.190~5.488,平均每个位点的等位基因数为7.130,基因频率分布不均匀;期望杂合度为0.543~0.847,平均0.759;多态信息含量为0.458~0.829,平均0.722;表明这8个微卫星位点均为高度多态性位点,有较丰富的遗传多样性。3个样地雪豹居群之间的遗传距离与地理距离相关,地理距离最近的青海省囊谦县和治多县的雪豹居群遗传距离最小。根据雪豹平均遗传分化度Fst(0.053)、平均基因流(4.488)以及STRUCTURE聚类分析结果(当K=1时,ln P(D)值最大),推测3个居群间虽然有一定的遗传距离,但均来自同一个种群,暂无分化现象。     

三峡库区5 个鲢群体遗传变异的微卫星分析

研究利用10 个高度多态的微卫星标记对三峡水库秭归、巫山、云阳、忠县、木洞等5 个库区鲢(Hypophthalmichthys molitrix)的野生群体进行了遗传多样性分析。检测到161 个等位基因, 群体共有等位基因84 个, 每个微卫星位点的等位基因数729 不等。平均观测杂合度Ho 为0.7840.846, 平均期望杂合度He 为0.8280.847, 平均多态信息含量PIC 为0.7970.817。Fst 值为-0.0010.009, 表明5 个鲢群体间没有遗传分化。Hardy-Weinberg 平衡检验表明巫山、云阳、木洞群体在一些位点上偏离遗传平衡。Bottleneck 分析显示长江三峡库区江段的鲢群体可能在历史上经历了遗传瓶颈。5 个群体间的遗传相似系数为0.8910.950, 遗传距离为 0.0500.115, 根据 Nei's 遗传距离所绘制的聚类图, 表明鲢群体间的遗传距离与其地理距离基本一致。贝叶斯分析结果也证实三峡库区5 个鲢群体可视为一个类群。尽管没有检测到遗传分化, 数据清晰地表明三峡库区的鲢群体仍有很高的遗传多样性, 研究结果为三峡地区和长江上游的鲢种质资源保护和种群评估提供了参考。       

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。     

Characterization of eight polymorphic microsatellite loci for the leopard coralgrouper (Plectropomus leopardus Lacepède)

Eight polymorphic microsatellite loci were isolated and characterized from a microsatellite DNA-enriched DNA library for the leopard coralgrouper (Plectropomus leopardus Lacepède, 1802), a popular food fish in the East Indies. These loci showed polymorphism information content ranging from 0.493 to 0.854, allele numbers ranging from 3 to 10, effective allele numbers ranging from 2.2 to 7.6, and observed and expected heterozygosities from 0.375 to 0.906 and 0.544 to 0.868 respectively. Thus, we expect that these markers will be useful for population genetic and breeding studies of the leopard coralgrouper.     

Spatiotemporal genetic differentiation of Cuban natural populations of the pink shrimp <Emphasis Type="Italic">Farfantepenaeus notialis</Emphasis>

We analyzed the spatiotemporal genetic structure of Farfantepenaeus notialis populations using five microsatellites loci in order to understand the influence of natural events such as hurricanes on the genetic drift/migration balance as the main cause for the variation of allele frequencies over time. The results were compared with the previous ones obtained from allozymes and mtDNA. High and stable genetic diversity levels (He=0.879+/-0.0015) were found over eight years for the populations that inhabit the south Cuban platform, however significant changes of allele frequencies were detected over time. The F(ST) estimates, albeit low, revealed significant differences among populations inside the Ana Maria Gulf for 1995 but not for the 1999 and 2003 samples. The F(ST), AMOVA and the genetic distance analysis revealed the instability of the genetic structure over time in accordance with allozymes results. The correspondence of the microsatellite results with those obtained from allozymes confirm the effects of migration enhanced by natural events as the main cause of the temporal variation of allele frequencies. The genetic drift effect was discarded through the evaluation of Ne and the M ratio, while natural selection effects were rejected because of the lowest probability of microsatellite loci being under selective pressures. The microsatellite data are also consistent with the results obtained with mtDNA in detecting significant and persistent genetic differences between the Gulfs of Ana María and Batabanó for the years 1995 and 2003.     

利用微卫星DNA标记研究绒山羊群体遗传多样性

利用7个微卫星标记对4个绒山羊品种共计18个个体的遗传多样性进行了分析和研究。计算了有效等位基因数、遗传杂合度、遗传距离等,分析了群体相关的遗传变异。结果表明,辽宁多绒山羊的有效等位基因数最大,杂合度最高;而辽宁绒山羊的有效等位基因数最小,杂合度最低。奈氏遗传距离表明,库布齐杂种绒山羊和辽宁多绒山羊的亲缘关系最近,而和阿尔巴斯绒山羊的亲缘关系最远。     

Genetic variation in island populations of tuatara (<Emphasis Type="Italic">Sphenodon</Emphasis> spp) inferred from microsatellite markers

Tuatara (Sphenodon spp) populations are restricted to 35 offshore islands in the Hauraki Gulf, Bay of Plenty and Cook Strait of New Zealand. Low levels of genetic variation have previously been revealed by allozyme and mtDNA analyses. In this new study, we show that six polymorphic microsatellite loci display high levels of genetic variation in 14 populations across the geographic range of tuatara. These populations are characterised by disjunct allele frequency spectra with high numbers of private alleles. High F _ST (0.26) values indicate marked population structure and assignment tests allocate 96% of all individuals to their source populations. These genetic data confirm that islands support genetically distinct populations. Principal component analysis and allelic sequence data supplied information about genetic relationships between populations. Low numbers of rare alleles and low allelic richness identified populations with reduced genetic diversity. Little Barrier Island has very low numbers of old tuatara which have retained some relictual diversity. North Brother Island’s tuatara population is inbred with fixed alleles at 5 of the 6 loci.     

Microsatellite Variation in Two Populations of Free-Ranging Yellow Baboons (Papio hamadryas cynocephalus)

We investigated genetic variation at six microsatellite (simple sequence repeat) loci in yellow baboons (Papio hamadryas cynocephalus) at two localities: the Tana River Primate Reserve in eastern Kenya and Mikumi National Park, central Tanzania. The six loci (D1S158, D2S144, D4S243, D5S1466, D16S508, and D17S804) were all originally cloned from and characterized in the human genome. These microsatellites are polymorphic in both baboon populations, with the average heterozygosity across loci equal to 0.731 in the Tana River sample and 0.787 in the Mikumi sample. The genetic differentiation between the two populations is substantial. Kolmogornov–Smirnov tests indicate that five of the six loci are significantly different in allele frequencies in the two populations. The mean F _ST across loci is 0.069, and Shriver's measure of genetic distance, which was developed for microsatellite loci (Shriver et al., 1995), is 0.255. This genetic distance is larger than corresponding distances among human populations residing in different continents. We conclude that (a) the arrays of alleles present at these six microsatellite loci in two geographically separated populations of yellow baboons are quite similar, but (b) the two populations exhibit significant differences in allele frequencies. This study illustrates the potential value of human microsatellite loci for analyses of population genetic structure in baboons and suggests that this approach will be useful in studies of other Old World monkeys.     

Characterization of eight polymorphic microsatellite loci for the giant grouper (Epinephelus lanceolatus Bloch)

Eight polymorphic microsatellite loci were isolated and characterized using a small insert genomic DNA library for the giant grouper (Epinephelus lanceolatus Bloch, 1790), a commercially valuable marine fish in tropical waters. They showed polymorphism information content ranging from 0.177 to 0.775, allele numbers ranging from two to 10, effective allele numbers ranging from 1.227 to 5.012, and observed and expected heterozygosities from 0.2 to 0.733 and from 0.185 to 0.801, respectively, which we anticipate will be useful for population genetic studies of the giant grouper.     

Experimental verification of microsatellite null alleles in Norway spruce (Picea abies [L.] Karst.): Implications for population genetic studies

Three stands ofPicea abies [L.] Karst. with different density in the Harz Mountains (Lower Saxony, Germany) were characterized at 4 microsatellite loci. An excess of homozygotes was observed in all 3 stands at 1 simple sequence repeat (SSR) locus, suggesting the presence of null alleles. To test for the segregation of a null allele, 24 openpollinated seeds (haploid megagametophytes and embryos) from apparently homozygous mother trees were analyzed. For 1 of 3 trees that could be identified as heterozygous for a null allele, no significant deviation from the expected 1∶1 segregation into marker absence (null allele) and marker presence of the second maternal allele could be observed in the haploid megagametophyte. Concordantly, the numbers of embryos heterozygous for the null allele and for the other maternal allele were not significantly different from each other. Inheritance analyses in seedlings and corresponding megagametophytes of gymnosperms were used as a direct experimental verification of microsatellite null alleles in single-tree progeny. Microsatellites with an abundance of null alleles should be discarded from further analysis because inclusion of these loci results in incorrect estimation of allele frequencies.     

Assessing genetic diversity of wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.) germplasm using microsatellite markers

A set of 24 wheat microsatellite markers, representing at least one marker from each chromosome, was used for the assessment of genetic diversity in 998 accessions of hexaploid bread wheat (Triticum aestivum L.) which originated from 68 countries of five continents. A total of 470 alleles were detected with an average allele number of 18.1 per locus. The highest number of alleles per locus was detected in the B genome with 19.9, compared to 17.4 and 16.5 for genomes A and D, respectively. The lowest allele number per locus among the seven homoeologous groups was observed in group 4. Greater genetic variation exists in the non-centromeric regions than in the centromeric regions of chromosomes. Allele numbers increased with the repeat number of the microsatellites used and their relative distance from the centromere, and was not dependent on the motif of microsatellites. Gene diversity was correlated with the number of alleles. Gene diversity according to Nei for the 26 microsatellite loci varied from 0.43 to 0.94 with an average of 0.77, and was 0.78, 0.81 and 0.73 for three genomes A, B and D, respectively. Alleles for each locus were present in regular two or three base-pair steps, indicating that the genetic variation during the wheat evolution occurred step by step in a continuous manner. In most cases, allele frequencies showed a normal distribution. Comparative analysis of microsatellite diversity among the eight geographical regions revealed that the accessions from the Near East and the Middle East exhibited more genetic diversity than those from the other regions. Greater diversity was found in Southeast Europe than in North and Southwest Europe. The present study also indicates that microsatellite markers permit the fast and high throughput fingerprinting of large numbers of accessions from a germplasm collection in order to assess genetic diversity.     

Isolation,characterization and cross‐species amplification of eight microsatellite DNA loci in the migratory locust (Locusta migratoria)

Eight polymorphic di‐ and trinucleotide microsatellite loci suitable for population genetic analysis were developed in Locusta migratoria from a partial phagemid genomic library enriched for microsatellite inserts. The expected heterozygosity at these loci ranges from 0.45 to 0.97, with the observed allele numbers varying between nine and 45. The overall microsatellite cloning efficiency in L. migratoria is 14%, suggesting that in migratory locusts, microsatellite sequences are abundant and should provide a valuable and easily accessible source of nuclear markers for genetic studies. These microsatellite loci were highly Locusta‐specific, with only very limited cross‐species applicability.