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。     

鳜原种群体和养殖群体遗传多样性的微卫星分析

本研究利用20对微卫星引物对鳜(Siniperca chuatsi)原种群体和养殖群体进行遗传多样性分析。结果表明,在鳜原种群体中检测到多态性位点14个,养殖群体11个。在两个群体中共检测到等位基因数96个,其中原种群体检测到等位基因数53个,每个位点的等位基因数在1～7之间,平均有效等位基因数为2.7390;养殖群体检测到等位基因数43个,每个位点的等位基因数在1～6之间,平均有效等位基因数为2.1284。原种群体的平均观察杂合度0.5708,Nei氏期望杂合度0.5295,平均多态信息含量PIC0.5353;养殖群体的平均观察杂合度0.3839,Nei氏期望杂合度0.4011,平均多态信息含量PIC0.5043。因此,与养殖群体相比,鳜原种群体仍有丰富的遗传多样性。本研究可为鳜种质资源的保护、监测和遗传育种提供分子水平上的数据。     

吉富罗非鱼第二十一代选育群体微卫星标记研究

采用10对微卫星引物对广东省化州光辉养殖场有限公司新选育的吉富罗非鱼第21代群体进行遗传多样性研究。结果显示:10对引物在48尾吉富罗非鱼中共检测到57个等位基因(Na),平均值为5.700;有效等位基因(Ne)平均值为3.726;观测杂合度(Ho)在0.750~1之间,平均值为0.896;多态信息含量(PIC)在0.390~0.797之间,平均值为0.640。表明该吉富罗非鱼选育群体具有较高的遗传多样性水平,可作为选育和养殖基础群体。     

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。     

基于微卫星标记的5个尼罗罗非鱼品系的遗传多样性分析

为了对生产上应用的5个尼罗罗非鱼(Oreochromis niloticus)品系的遗传背景进行本底调查,以期为育种工作提供基础数据, 本文用19对微卫星引物对5个尼罗罗非鱼品系(苏丹品系、台湾品系、吉富品系、超雄品系Ⅰ和超雄品系Ⅱ)进行了遗传多样性分析,计算并统计了等位基因数、多态信息含量( PIC)、杂合度、遗传相似性系数、遗传距离等参数。结果表明19个微卫星位点在5个罗非鱼品系中共检测到113个等位基因,平均期望杂合度在0.578–0.692之间,平均多态信息含量在0.473–0.628之间。5个尼罗罗非鱼品系有较丰富的遗传多样性,而超雄品系Ⅰ的遗传多样性相对较为贫乏。     

利用微卫星标记分析东平湖黄颡鱼的遗传多样性

采用27对鲤微卫星引物对山东东平湖黄颡鱼进行全基因组扫描,结果有19对引物能获得稳定的扩增条带,其中有6个微卫星位点具有多态性。对这6个位点的扩增产物进行分析,结果显示:6个位点共检测到22个等位基因,每个位点的等位基因数从2个到6个不等;平均基因纯合率为41.67%,平均多态信息含量(PIC)为0.488,平均杂合度为0.5833。这表明东平湖黄颡鱼种群结构合理,群体遗传多样性较丰富,种质资源处于安全状态。     

五个家系吉富罗非鱼的遗传多样性分析

吉富罗非鱼是用家系选育方法获得的优良品系.该方法可避免近亲交配引起的衰退.从罗非鱼的第二代遗传图谱上选取10个微卫星标记,对吉富罗非鱼5个家系共121尾鱼进行遗传多样性分析.结果表明:各位点的等位基因数为2～6个,平均等位基因数为4;有效等位基因数1.3920～3.6689,平均有效等位基因数为2.4733;平均杂合度观测值0.5984,平均杂合度期望值0.5642.5个家系的多态信息含量从小到大以依次为22家系、25家系、59家系、49家系、31家系,均为中度多态性.家系间基因分化系数(GST)为0.1676,各家系之间存在一定遗传分化.根据遗传距离采用UPGMA法对5个家系进行聚类,49家系和59家系遗传距离最小聚为一类, 它们与31家系遗传距离最远.对10个微卫星位点的基因型进行分析,结果发现在GM578位点,22家系呈其他几个家系没有的BB基因型,有望成为22家系的标记.     

秦川母牛群体遗传特性的微卫星标记研究

为了从DNA分子水平揭示秦川牛群体遗传多态性和群体遗传结构,寻找可用于秦川牛的微卫星标记,本研究选择了12个普通牛（Bos taurus）微卫星标记检测了90头秦川母牛各微卫星位点的遗传变异及多态性。结果表明,在秦川母牛群体中,12个微卫星位点共检测到了247个等位基因,各位点的等位基因数在13（INRA005）～33个（HEL13）之间,平均每个微卫星位点的等位基因数为21个;总有效等位基因数和平均每个位点平均有效等位基因数（Ne）分别分为142．6229和11．8852。各位点平均基因频率取样方差（V（pij））为2．6036×10^-4。12个微卫星位点平均观察杂合度（Ho）和平均期望杂合度（He）在0．7842（INRA005）～0．9775（BM315）和0．7952（BM315）～0．9446（HEL13）之间。12个位点平均多态信息含量（PIC）在0．7653（INRA005）～0．9420（HEL13）之间,平均为0．8965．12个微卫星位点均属于高度多态位点,这表明秦川母牛群体中所检测各微卫星位点具有丰富的遗传多态性,具备较大的选择潜力。12个微卫星位点的平均固定指数（F）为-0．0076,即各位点杂合子的缺陷度不高,即偏离Hardy—Weinberg平衡的程度不大。     

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。     

基于转录组平台的蛤仔微卫星标记筛选

以菲律宾蛤仔转录组测序所得拼接序列为基础,采用MISA软件进行微卫星分析,对其中的145个微卫星位点进行引物设计,得到具有清晰扩增条带的微卫星位点58个。对大连庄河野生蛤仔群体的扩增结果表明,18个位点显示单态性,40个位点表现为多态性。该群体40个多态性微卫星位点得到的等位基因数在2—6之间,平均等位基因数为3.4250±0.9718,观测杂合度和期望杂合度分别在0.0000—1.0000和0.0615—0.7996之间,平均值分别为0.2727±0.2272和0.4739±0.1902,群体平均Nei指数为0.4664±0.1872。多态信息含量(PIC)在0.0586—0.7529之间,平均值为0.4148±0.1707,其中16个微卫星位点的PIC值大于0.5,为高度多态性,15个位点0.25PIC0.5,为中度多态性,其余9个为低度多态性。经Sequential Bonferroni校正的Hardy-Weinberg平衡检验,有10个位点尚未偏离平衡。基于转录组平台筛选微卫星标记的方法,在很大程度上推动了DNA分子标记的开发。研究开发的微卫星标记可用于蛤仔群体遗传学、遗传连锁图谱构建及其他相关研究,为蛤仔分子标记辅助育种及群体种质保护等工作提供技术支持。     

五个红罗非鱼群体的遗传多样性分析

实验采用微卫星标记技术,选用22对微卫星引物对5个红罗非鱼群体进行遗传多样性分析。经PCR扩增,16个微卫星位点扩增产物在关岛红罗非鱼（GD）、珍珠白红罗非鱼（ZZ）、佛罗里达红罗非鱼（FL）、明月红罗非鱼（MY）、马来西亚红罗非鱼（ML）中均获得了清晰稳定的条带。分析结果显示:16个微卫星标记共检测到146个等位基因。5个群体的平均等位基因数（N_a）在6.5625-8.5625,平均有效等位基因数（N_e）在4.1495-6.1330,平均杂合度（H_e）在0.7491-0.8247,平均多态信息含量（PIC）在0.6939-0.7840,说明它们的遗传多态性丰富。卡方检验表明5个红罗非鱼群体的大部分位点偏离Hardy-Weinberg平衡。在5个群体中,关岛红罗非鱼（GD）与珍珠白红罗非鱼（ZZ）遗传相似系数（0.6171）最小,遗传距离（0.4827）最大,说明两者亲缘关系最远;佛罗里达红罗非鱼（FL）与马来西亚红罗非鱼（ML）遗传相似系数（0.9069）最大,遗传距离（0.0977）最小,可推断两者亲缘关系最近。采用UPGMA进行聚类分析,结果表明:佛罗里达与马来西亚先聚成一支,二者再与珍珠白聚在一起,接着三者与明月聚在一起,最后,四者与关岛聚到一起。聚类结果说明关岛群体与其他4个群体亲缘关系最远;佛罗里达与马来西亚亲缘关系最近,珍珠白群体次之,明月群体再次之。以上结果可推断5个红罗非鱼群体遗传多态性丰富,具有较大的选育潜力。     

微卫星标记分析罗非鱼群体的遗传潜力

利用25个微卫星标记,对奥利亚罗非鱼2个群体["夏奥1号"(ZA)、广西群体(GA)]和尼罗罗非鱼4个群体[埃及品系(ZN)、88品系(XN)、广西群体(GN)、美国品系(MN)]进行检测。共检测到7 775个扩增片段,长度在100~400 bp;等位基因数3~8个不等,共计143个等位基因;平均每个基因座扩增得到5.72个等位基因。各群体平均观测杂合度(H o)在0.7253~0.8160之间,平均期望杂合度(He)在0.5146~0.6834之间,平均多态信息含量(PIC)在0.4212~0.6105之间,平均有效等位基因数(A e)在2.20~3.23之间。ZA与GA遗传相似系数最高(0.9130),ZA与ZN遗传相似系数最低(0.4352)。总的说来,4个尼罗罗非鱼群体的遗传潜力较高,2个奥利亚罗非鱼群体的遗传潜力适中。     

The use of microsatellite markers for detection of genetic diversity in barley populations

 A barley lambda-phage library was screened with (GA)n and (GT)n probes for developing microsatellite markers. The number of repeats ranged from 2 to 58 for GA and from 2 to 24 for GT. Fifteen selected microsatellite markers were highly polymorphic for barley. These microsatellite markers were used to estimate the genetic diversity among 163 barley genotypes chosen from the collection of the IPK Genebank, Germany. A total of 130 alleles were detected by 15 barley microsatellite markers. The number of alleles per microsatellite marker varied from 5 to 15. On average 8.6 alleles per locus were observed. Except for GMS004 all other barley microsatellite markers showed on average a high value of gene diversity ranging from 0.64 to 0.88. The mean value of gene diversity in the wild forms and landraces was 0.74, and even among the cultivars the gene diversity ranged from 0.30 to 0.86 with a mean of 0.72. No significant differences in polymorphism were detected by the GA and GT microsatellite markers. The estimated genetic distances revealed by the microsatellite markers were, on average , 0.75 for the wild forms, 0.72 for landraces and 0.70 among cultivars. The microsatellite markers were able to distinguish between different barley genotypes. The high degree of polymorphisms of microsatellite markers allows a rapid and efficient identification of barley genotypes. Received: 26 November 1997 / Accepted: 19 January 1998     

Isolation and characterization of microsatellite loci in Hexagrammos otakii based on 2b-RAD method

In this study, we isolated 20 novel microsatellites loci associated with the growth of Hexagrammos otakii (Fat greenling) by using 2b-RAD sequencing method. The characteristics of 20 microsatellite loci were amplified in 105 H. otakii individuals which came from four different groups and tested by Capillary electrophoresis. The number of allele of the 20 microsatellite loci ranged from 8 to 26 with an average of 19.95. PIC value ranged from 0.1659 to 0.9227 with an average of 0.7555. Observed and expected heterozygosity varied from 0.0667 to 0.8571 and from 0.1710 to 0.9314, respectively. Highly polymorphic characteristics were observed in each microsatellite loci of the study except HO6. Further research showed that 10 microsatellite loci had transferability in Hexagrammos agrammus. In this study, high polymorphism and genetic diversity using the 15 polymorphic microsatellite loci suggest that they are suitable for investigating the fine-scale population structure, genetic relationship and further evaluating the artificial reproduction strategy of H. otakii.     

Rapid evolution of an established feral tilapia (Oreochromis spp.): the need to incorporate invasion science into regulatory structures

Outside of Asia exotic tilapiine fishes (Trewavas 1983) were not imported directly as native genetic resources from Africa but arrived as transits from third or fourth party sources. Founder populations of exotic tilapia species may be morphologically and meristically distinct in Africa but are still reproductively compatible due to their relatively recent divergence. As a result, feral tilapias have hybridized and introgressed in aquaculture settings before escaping to the wild. Reproductively viable hybrids have resulted, making the use of conventional systematics based upon external morphometric characterizations for species determinations useless. Microsatellite DNA marker studies of 139 tilapia from 10 locations (6 feral, 4 in culture) in southern California, USA, were conducted. Genetic similarities to a worldwide tilapia genetic database were compared by formulating a neighbor-joining dendrogram. The hypothesis that the pattern found arose by chance was tested by bootstrap resampling of 4 microsatellite loci at the 95% level of significance. A significant number of bootstrap re-samples showed that a tilapia species in aquaculture and a feral Colorado River tilapia population were 'monophyletic', meaning they originated from a single source relative to the total variation in the data. A significant number of bootstrap re-samples grouped these two populations with the reference populations of Oreochromis niloticus taken worldwide. This 'niloticus' group was found significantly distinct from a second large grouping that included all of the other California tilapia samples and a large group of O. mossambicus reference samples taken from a worldwide database. Any regulatory structure attempting to control movements of exotic tilapias based upon discerning 'species' using morphometric and meristic measurements of tilapias is inadequate. California, for example, does not permit O. niloticus for aquaculture, but the genetic signature for this species exists in feral stocks collected from the wild in California. There are likely many other places where a certain tilapia `species' are not permitted but the genetic material exists in established wild stocks within its political jurisdiction. It is recommended that a system of ecotypes (code names) based upon presence of unique DNA microsatellite markers be developed to label and regulate feral tilapia strains, and that hybrid strains be collected into a 'registry' of species based upon unique DNA markers. Such a registry could be used by regulators to better manage exotic tilapias and aquaculture developments.     

蛇鳄龟微卫星标记的开发及一个养殖群体的遗传多样性分析

利用磁珠富集法, 以生物素标记的(CA)15为探针, 构建了蛇鳄龟(Chelydra serpentina L.)微卫星富集文库。通过PCR法从富集文库中共筛选出70条微卫星序列, 一共设计了48对微卫星引物, 采用PCR扩增的方法从中筛选出36对引物, 对一个蛇鳄龟养殖群体进行遗传多样性分析。通过分析, 36个位点获得的等位基因数从29不等, 平均为4.361, 有效等位基因为1.4617.767, 平均为3.498。等位基因片段大小为56342 bp, 观测杂合度为0.0671.000, 平均为0.725; 期望杂合度为0.3160.850, 平均0.600; 多态信息含量为0.26550.8359, 平均为0.5573; 结果表明此蛇鳄龟养殖群体存在较高的遗传多样性水平。群体内固定系数-0.6880.856, 平均为-0.214, 说明蛇鳄龟群体中杂合子过剩。       

Sex-linked markers and microsatellite locus duplication in the cichlid species Oreochromis tanganicae

Cichlid species of the genus Oreochromis vary in their genetic sex-determination systems. In this study, we used microsatellite DNA markers to characterize the sex-determination system in Oreochromis tanganicae. Markers on linkage group 3 were associated with phenotypic sex, with an inheritance pattern typical of a female heterogametic species (WZ-ZZ). Further, locus duplication was observed for two separate microsatellite markers on the sex chromosome. These results further advance our understanding of the rapidly evolving sex-determination systems among these closely related tilapia species.     

Nine novel microsatellite markers for the hog deer (Axis porcinus)

Hog deer (Axis porcinus) is listed as an endangered species in many countries and its taxonomic status remains ambiguous. In this study, we developed nine novel microsatellite markers using enrichment methods. These polymorphic microsatellite loci showed allele numbers of 2–3 with an average of 2.22 in a group of 26 individuals and observed and expected heterozygosity ranging from 0.044 to 0.619 (average 0.397) and 0.194 to 0.632 (average 0.433) respectively. Linkage disequilibrium was not detected. These markers could be used in the genetic study and taxonomic identification of this species.     

Pronounced genetic differentiation of small,isolated and fragmented tilapia populations inhabiting the Magadi Soda Lake in Kenya

Lake Magadi, an alkaline hypersaline lake in Kenya, is one of the most extreme water bodies known. Although its water temperatures often exceed 40°C, a particular lineage of ‘dwarf’ tilapia, Alcolapia grahami, has evolved remarkable adaptations to survive in this hostile environment. Magadi tilapia exists in small fragmented populations in isolated lagoons within Lake Magadi and its satellite Lake, Little Magadi. In spite of the potential this tilapia holds for understanding evolutionary processes in stressful environments, few genetic studies have focused on this species. We examined the genetic diversity and spatial genetic relationships of Magadi tilapia populations using microsatellite and mitochondrial markers. High levels of genetic variation were found to be supporting the hypothesis that A. grahami populations represent remnants of a much larger fish population that inhabited paleo-lake Orolonga. In contrast to previous studies, we found a well-supported genetic structure of A. grahami consisting of three differentiated genetic clusters (a) Little Magadi, (b) Fish Spring Lagoon and (c) Rest of Magadi. Given the importance of this species to the Magadi ecosystem and its potential evolutionary significance, the three genetic clusters should be considered as separate gene pools and conservation strategies aimed at protecting the species based on these clusters are recommended.     

Genetic structure and gene flow in an endangered native tilapia fish (Oreochromis esculentus) compared to invasive Nile tilapia (Oreochromis niloticus) in Yala swamp, East Africa

The introduction of invasive Nile tilapia (Oreochromis niloticus), and the rapacious predator Nile perch (Lates niloticus), into Lake Victoria resulted in a decline in population sizes, genetic diversity and even extirpation of native species which were previously the mainstay of local fisheries. However, remnant populations of native fish species, including tilapia, still persist in satellite lakes around Lake Victoria where they may coexist with O. niloticus. In this study we assessed population genetic structure, diversity, and integrity of the native critically endangered Singidia tilapia (O. esculentus) in its refugial populations in the Yala swamp, Kenya, and contrasted this diversity with populations of the invasive tilapia O. niloticus in satellite lakes (Kanyaboli, Namboyo and Sare) and Lake Victoria. Based on mtDNA control region sequences and eight nuclear microsatellite loci, we did not detect any mtDNA introgression between the native and the invasive species in Lakes Kanyaboli and Namboyo, but did find low levels of nuclear admixture, primarily from O. niloticus to O. esculentus. Some genetic signal of O. esculentus in O. niloticus was found in Lake Sare, where O. esculentus is not found, suggesting it has recently been extirpated by the O. niloticus invasion. In both species, populations in the satellite lakes are significantly genetically isolated from each other, with private mtDNA haplotypes and microsatellite alleles. For O. niloticus, genetic diversity in satellite lakes was similar to that found in Lake Victoria. Our data imply a low frequency of immigration exchange between the two populations of O. esculentus and we suggest that the populations of this endangered species and important fisheries resource should be conserved separately in Lakes Kanyaboli and Namboyo and with high priority.