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1.
目的 应用微卫星技术在2013年和2020年对同一个KM小鼠种子群体进行遗传质量检测和分析。方法 2013年和2020年分别提取30只KM小鼠DNA,应用30个微卫星标记进行PCR扩增,基因测序后计算等位基因数、杂合度和多态信息含量等参数。结果 2013年该群体有95个等位基因,平均杂合度为0.4864,平均多态信息含量(PIC)为0.4418。2020年该群体有122个等位基因,平均杂合度分别为0.5150,平均多态信息含量(PIC)分别为0.4818。结论 KM小鼠种子群体具有良好的遗传稳定性和多样性,符合封闭群动物的群体遗传概貌特征。  相似文献   

2.
应用微卫星标记研究Dunkin Hartley豚鼠封闭群的遗传背景   总被引:1,自引:0,他引:1  
目的检测我国现有Dunkin Hartley豚鼠封闭的遗传背景,分析评估其遗传多样性水平和遗传分离情况,为建立标准化的豚鼠封闭群监测方法提供基础资料。方法应用筛选获得的8个微卫星位点,从一个数量为1000的豚鼠封闭群中随机选择72个个体,通过PCR扩增和聚丙烯酰胺凝胶电泳的方法,进行等位基因检测。并根据检测结果分析评估了该豚鼠封闭群的遗传现状。结果共检测到28个等位基因,每个座位的等位基因数为2~5个,有效等位基因数为1.5191~3.4422,平均2.3093。平均期望杂合度为0.5294。各位点多态信息含量在0.3154~0.6545之间,平均值为0.4687。有5个位点显著偏离Hardy-Weinberg平衡。结论豚鼠封闭群的遗传多态性处于中等水平,遗传平衡检测结果提示种群的繁殖过程未能实现完全随机交配,近交现象一定程度上存在。本研究的结果将为豚鼠封闭群遗传监测方法和标准的建立提供基础。  相似文献   

3.
两个封闭群SPF级昆明小鼠遗传背景调查   总被引:1,自引:0,他引:1  
目的:比较两个封闭群SPF级昆明( KM)小鼠的遗传差异,调查引进的SPF级KM小鼠封闭繁殖6年后,其遗传构成是否发生变化。方法应用微卫星DNA标记方法对18个位点在两个群体中的遗传差异进行分析,主要包括观察等位基因数( Na)、有效等位基因数( Ne)、观察杂合度( Ho)、期望杂合度( He)、多态信息含量(PIC )、Shan-non信息指数、遗传分化系数( F st)、遗传距离等遗传参数。结果两个封闭群SPF 级KM小鼠在18个微卫星位点共发现67个等位基因,Na为2~8个,平均3.7222个;Ne为1.9459~6.5442,平均2.7966个;Ho为0.4225~1.0000,平均0.8823;He为0.4892~0.8527,平均0.6162;Shannon信息指数0.6792~1.9526,平均1.0598;PIC为0.3680~0.8301,平均0.5317;Fst平均值为0.0159,表明群体间的遗传差异仅1.59%,二者间的遗传距离(DA)为0.0499。结论两个封闭群SPF级KM小鼠遗传结构相似度极高,它们与原引进群体的分化差异极小。  相似文献   

4.
实验兔三个封闭群微卫星DNA多态性遗传分析   总被引:1,自引:0,他引:1  
目的 对日本大耳白兔、青紫蓝兔、新西兰兔三个封闭群体开展群体遗传学分析.方法 利用10个微卫星位点,进行Hardy-Weinberg平衡(HWE)检验,统计三个种群的基因频率、观测杂合度、期望杂合度、F值和遗传距离.结果 青紫蓝品种在12L1E11位点,新西兰品种在INRACCDDV0087位点与INRACCDDV0203位点,日本大耳白兔在Sat12位点与INRACCDDV0203,P<0.05,显著偏离HWE,多数表现为杂合子缺陷;三个群体在Sat13、So144、6L1F10、7L1F1、12L4A1、INRACCDDV0016点上均符合HWE;各位点平均等位基因数5.9,种群整体基因频率差别较大,其范围为0 -0.9060;三个种群的平均观测杂合度为0.6204,平均期望杂合度为0.6178;群体间分化系数(Fst)平均为0.0750,日本大耳白兔和青紫蓝兔遗传距离最近为0.1223,青紫蓝兔与新西兰兔遗传距离最远为0.1934.结论 三个种群的遗传结构均表现出遗传稳定性和均一性,在10个微卫星位点上呈现高度多态性,种群间遗传分化明显.  相似文献   

5.
目的检测国内Et本大耳白兔、青紫蓝兔、新西兰白兔的遗传背景及遗传结构,为封闭群兔遗传检测方法建立和标准化提供基础资料。方法应用18个微卫星标记及荧光标记一半自动基因分型技术对三个群体95个个体进行Hardy.Weinberg检测,统计每个位点等位基因频率、杂合度、F值、遗传距离等信息。结果三个种群平均等位基因观测数为3.167、4.556、3.444,平均观测杂合度为0.444、0.5230、0.4976。18个位点平均多态信息含量(PIC)为0.410、0.549、0.470,日本大耳白兔6个位点HWE检验(P〈0.05),显著偏离Hardy—Weinberg平衡,并在Satl3,INRCCDDV0088位点基因型完全纯和,新西兰白兔和青紫蓝兔分别有2个位点显著偏离Hardy—Weinberg平衡。三个种群遗传距离:青紫蓝兔与新西兰白兔遗传距离最近,为0.124,与日本大耳白兔遗传关系最远,为0.320;新西兰白兔与日本大耳白兔较远,为0:10。结论三个种群有各自不同遗传特征,遗传多样性较高,种群间分化明显。个别位点偏离遗传平衡,推测人工繁育过程中存在一定问题。  相似文献   

6.
以采自四川省汉源县的野生稀有鮈鲫(Gobiocypris rarus)50对为建群原代(P0),采用最佳避免近交法建立了封闭群Ihb:IHB。应用11对微卫星引物对原代、F1—F4代传代亲鱼进行了遗传多样性监测。11个微卫星位点在稀有鮈鲫野生型封闭群共发现等位基因57个,各位点平均等位基因数5.2个、平均有效等位基因数3.3个、平均多态信息含量0.5282。封闭群各代平均期望杂合度为0.5553—0.5742,平均多态信息含量范围为0.5060—0.5318,平均观察等位基因数、平均有效等位基因数、平均观察杂合度、平均期望杂合度、平均多态信息含量在各代之间均无显著性差异(P>0.05)。各代间的遗传相似性在0.99以上,遗传分化系数FST为0.0008(P>0.05),基因频率也无显著性差异(P>0.05)。监测结果表明,Ihb:IHB保持了野生种群的遗传多样性,建群传代过程中未出现显著的遗传分化,符合实验动物封闭群的要求,可以作为一个实验动物的新品系。  相似文献   

7.
目的检测和评估金黄地鼠封闭群SPF化后的遗传学变化,为SPF金黄地鼠遗传质量的控制提供技术资料。方法应用小鼠和大鼠的微卫星标记筛选适于金黄地鼠遗传检测的微卫星标记,并结合微卫星荧光标记-半自动基因分型技术,对成都生物制品研究所的SPF级金黄地鼠及其来源的普通级金黄地鼠进行遗传检测,计算其群体遗传学参数。结果对18个小鼠和6个大鼠微卫星标记进行了筛选,分别有2个小鼠和2个大鼠微卫星标记在金黄地鼠种群中具PCR扩增多态性。4个检测的微卫星位点在普通级金黄地鼠和SPF金黄地鼠种群分别发现25和20个等位基因,两群体的期望杂合度分别为0.4979和0.5048,其群体遗传多样性无显著差异;群体间的不同微卫星位点FST范围从0.0095到0.0367,平均为0.0315,表明两群体间的遗传分化很弱,其遗传多样性主要存在于群体内;Nei(1972)遗传距离和Nei(1978)无偏遗传距离分别为0.0678和0.0570,表明了2群体之间很高的遗传相似度和非常近的亲缘关系;Hardy-Weinberg平衡检验表明普通级和SPF金黄地鼠分别有2个和3个位点偏离遗传平衡,且偏离位点均表现为杂合子缺陷。结论该SPF金黄地鼠基本保持了其来源普通级黄地鼠的遗传多样性,两群体间遗传分化程度和遗传差异很小,但应进一步加强其封闭群的繁育控制,保持其遗传稳定性。  相似文献   

8.
目的分析比较大耳白黑眼兔(WHBE兔)封闭群与日本大耳白兔(Jw兔)、新西兰兔(NZW兔)基因组存在的微卫星结构,研究WHBE兔封闭群的微卫星多态性。方法利用21个微卫星位点,通过微卫星分子标记技术对WHBE兔封闭群、Jw兔和NZW兔进行遗传多样性检测和对比。结果根据初步结果,在21对微卫星引物中筛选出扩增产物稳定并且具有多态性的11对引物。WHBE兔封闭群在每个位点上的等位基因数为3~8个不等,11个位点的平均有效等位基因数为2.0402个,平均杂合度为0.4810;Jw兔在每个位点上的等位基因数为2~8个不等,11个位点的平均有效等位基因数为3.6077个,平均杂合度为0.5039;NZW兔在每个位点上的等位基因数为3~9个不等,11个位点的平均有效等位基因数为2.6537个,平均杂合度为0.5334。WHBE兔封闭群在11个微卫星位点上的平均多态信息含量(PIC)为0.6005,多位点累积个体识别率达到100%,多位点累积非父排除概率(CPE)在双亲信息都是未知情况下的为0.9613,而在得知任一亲本信息的情况下,CPE值高达0.9973。在11个微卫星座位中,9个位点上出现了WHBE兔封闭群特有等位基因,其中在Sat2、Sat5、Sat7、Sat12、Sat13、Sat16、S0144和INRACCDDV0003八个位点上WHBE兔封闭群的特有等位基因为一个,在sat8位点上为两个。结论WHBE兔8个位点的平均杂合度、平均有效等位基因数均比JW兔及NZW兔低,说明WHBE兔群体的基因纯合度高于其他两个品系,具有更优的遗传稳定性。9个WHBE兔特有的等位基因可作为区分WHBE兔封闭群和其它两个品系实验兔的分子标记。  相似文献   

9.
秦巴山区中华蜜蜂种群微卫星DNA遗传分析   总被引:1,自引:0,他引:1  
【目的】中华蜜蜂Apis cerana cerana是一种兼有生态价值和经济价值的授粉昆虫。本研究拟揭示秦巴山区中华蜜蜂种群遗传多态性现状,探讨中华蜜蜂的种群分化机制及其影响因素。【方法】使用8个微卫星DNA标记评估秦巴山区17个样点共979个蜂群的中华蜜蜂遗传多态性,以长白山中华蜜蜂和阿坝中华蜜蜂作为外群进行种群遗传分化分析。【结果】秦巴山区中华蜜蜂95%的差异来源于样点内,样点间遗传分化系数(Fst)为0.002~0.037,基因流参数Nm为6.51~124.75,与外群的遗传分化分析中均显示秦巴山区中华蜜蜂不存在遗传分化。平均期望杂合度(He)为0.6877±0.1098,平均观察杂合度(Ho)为0.6364±0.1367,平均有效等位基因数(Ne)为3.7488±1.6201个,平均等位基因数(Na)为7.71±2.52个,多态信息含量(PIC)为0.6418±0.1152,香农指数(I)为1.5026±0.3754,这些参数均表明微卫星遗传多态性丰富。中蜂囊状幼虫病流行过的地区,其杂合度、多态信息含量以及等位基因数均显著低于未发病地区。【结论】秦巴山区中华蜜蜂种群数量大,分布均匀,基因流水平高,在650 km距离范围内没有发生种群分化;秦巴山区中华蜜蜂微卫星遗传多态性丰富,仅部分地区中华蜜蜂遗传多态性受中蜂囊状幼虫病的选择压而降低。  相似文献   

10.
应用微卫星DNA标记对Wistar和SD大鼠封闭群的遗传学研究   总被引:2,自引:0,他引:2  
封闭群大鼠的遗传质量对其医学生物学实验结果有重要影响,但目前缺乏遗传检测方法和标准.本研究应用6个微卫星标记及其荧光标记一半自动基因分型技术,对北京和上海2家单位分别提供的Wistar和Spague-Darley(SD)大鼠封闭群进行了遗传检测和评估.6个微卫星位点均具有高度多态性,在两大鼠群体共发现等位基因36个,每位点等位基因数5-8个,其多态信息含量(PIC)从0.5892(D11Mgh3)到0.8019(D6Mit1),平均为0.688l.6个位点在Wistar和SD大鼠分别发现25和26个等位基因,其平均期望杂合度分别为O.6260和0.6249.两群体的各组遗传多样性指数间无显著差异.群体间的不同微卫星位点Fst范围0.046l到0.4363.平均为0.2069,表明其遗传分化程度较大;Nei(1972)遗传距离和Nei(1978)无偏遗传距离分别为1.2862和1.2726,表明了2群体之间较大的遗传差异:Hardy-Weinberg平衡检验表明Wistar大鼠在所有检测的6个位点均非常显著偏离Haraly-WeinJaerg平衡,SD大鼠在2个位点(D6Mit1和D11Mgh3)处于遗传平衡状态,且偏离位点均表现为杂合子缺陷.因此研究表明,Wistar和SD大鼠封闭群均具有较好的遗传多样性,且两群体之间有较大的遗传差异和分化程度,分别具有各自不同的遗传特征,偏离Hardy-Weinberg遗传平衡是其繁育过程中较多存在的问题.本研究结果将为两品系大鼠遗传检测方法和标准的建立提供基础资料和依据.  相似文献   

11.
以广东徐闻金碧公司养殖场、广西北海营盘镇养殖场和南海水产研究所海南实验基地3个合浦珠母贝养殖群体为对象,利用8个微卫星位点M1、M2、M3、M4、M5、M6、M7、M8的引物进行了遗传多样性分析.结果表明:8个微卫星标记位点在3个养殖群体中共检测到58个等位基因,观测等位基因数为2~9个,平均有效等位基因数3.72~5.06,平均观察杂合度0.41~0.56,平均期望杂合度0.67~0.75,3个群体的平均多态信息含量PIC值为0.62~0.70,全部为高度多态(PIC≥0.5),表明这几个合浦珠母贝养殖群体目前仍具有较高的遗传多样性,遗传信息丰富,遗传变异大,可以作为良好的育种材料;在这3个养殖群体中,南海水产研究所海南实验基地的养殖群体的遗传多样性最高,广西北海营盘镇养殖群体遗传多样性最低,这一结果可以为今后选择育种、种质保护提供可资借鉴的资料.
Abstract:
By using eight mierosatellite loci (M1, M2, M3, M4, M5, M6, M7 and MS), the genetic diversity of three Pinctada fucata populations from the pearl farms in Xuwen of Guang-dong and Beihai of Guangxi, and from the experimental base of South China Sea Fisheries Re-search Institute in Hainan was studied. A total of fifty eight alleles of these eight microsatellite lo-ci were detected, among which, the observed allele number was 2-9, average effective allele number was 3.72-5.06, average observed population heterozygosity was 0. 41-0. 56, and aver-age observed expected heterozygosity was 0. 67-0. 75. All the three populations had a polymor-phie information content (PIC) of 0. 62-0.70, suggesting their high polymorphism (PIC > 0. 5). Among the three populations, the cultured population from the experimental base of South China Sea Fisheries Institute had the highest polymorphism, and that from Beihai of Guangxi had the lowest one. These results provided useful information for the selective breeding and germplast conservation of P. Fucata.  相似文献   

12.
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13.
Landraces of wheat can serve as important potential sources for extending the genetic basis of selection cultivars. Analysis of microsatellites and typing of polymorphism in a representative sample of 347 genotypes, including landraces and selection cultivars, was performed using a set of 38 selected oligonucleotide primer pairs. Each genotype had a unique allele combination at 39 microsatellite loci examined. Classification of genotypes with respect to the level of their similarity was performed using cluster analysis. The data obtained pointed to genetic differentiation of hexaploid wheat. The groups of cultivars, the formation of which was thought to be associated with the main old areas of wheat cultivation in Europe and Asia, were identified. The basis of each of the groups was formed by landraces of common wheat. The differences between the groups identified were associated with multiple changes in the wheat genome and were expressed as quantitative differences in the allele frequencies of microsatellite loci. The results of the study are of interest in terms of understanding the structure of wheat genetic diversity and revealing the pathways of evolution of this culture.  相似文献   

14.
海南五指山猪遗传多样性的微卫星分析   总被引:15,自引:0,他引:15  
海南五指山猪(Wuzhishan pig)是我国珍稀的小型猪品种。它的解剖学、生理学、疾病发生机理等都与人类极其相似,具有重要的应用价值,可用于心血管病、皮肤烧伤和新药评价等许多方面的研究。作者利用多重PCR和基因扫描技术对五指山猪32个微卫星基因座进行了遗传检测。统计了全群、核心群和近交群的等位基因组成,并计算了它们的平均纯合率、多态信息含量(PIC)和平均杂合度。结果显示,全群、核心群和近交群32个基因座的平均等位基因数分别为14.590个、9.410个、13.660个,平均基因纯合率分别为44%、44.3%、44%,平均PIC分别为0.742、0.708、0.731,平均杂合度分别为0.560、0.558、0.559。这表明海南五指山猪虽然遗传基础比较稳定,但仍具有较大的遗传变异。上述结果对于海南五指山猪的保种、定向选育、开发利用都具有重要的指导意义。  相似文献   

15.
An analysis of eight microsatellite loci in 213 animals was performed to define the genetic structure and variability of 11 East Asian native dog populations. Allele diversity, observed heterozygosities, expected heterozygosities, F-statistics, G(ST) estimates, number of migrants per generation (Nm), and Nei's DA distance were calculated. Expected mean heterozygosities of Asian native dogs varied within a range of 0.310-0.718 with a mean value of 0.580. In a sample of 11 Asian dogs, the highest genetic diversity was exhibited in the Korean native dogs and the lowest in the Shiba, the Japanese native dog. All populations except the Kishu and Akita showed statistically significant deviation from Hardy-Weinberg equilibrium at more than one locus. After corrections for multiple significance tests, deviations over all loci were statistically significant in 7 of 11 dog populations, meaning that Asian dogs are genetically subdivided (global F(ST) = 0.154). Despite the locus-specific deviations, statistically significant departures from the Hardy-Weinberg equilibrium reflect deviations in the direction of heterozygote deficit, the global F(IS) being 0.072. In the neighbor-joining and unweighted pair group method with arithmetic mean (UPGMA) dendrograms based on Nei's DA distance, the Korean native breeds (the Sapsaree and the Jindo) were grouped together, then with the Eskimo dog. The two Japanese native dogs (the Hokkaido and the Akita) also clustered together, with moderate bootstrap support. In spite of some deviation, the three-dimensional scattergram based on principal components supported the conclusions suggested by the dendrograms based on Nei's DA distance. From these two analyses, the Korean native dogs formed the closest groups and then showed a close relationship to the Eskimo dogs, reflecting the fact that the Korean native dogs might be originated from dogs in the northern part of Far East Asia.  相似文献   

16.
为了保护和合理利用我国地方山羊品种遗传资源提供理论基础,本研究利用国际农粮组织和国际家畜研究所推荐的10对微卫星引物,结合荧光标记PCR,检测了中国9个地方山羊品种和1个引进山羊品种的遗传多样性。所研究的10个品种中7个呈现出高度多态,3个呈现出中度多态。并共检测到119个等位基因,有效等位基因数在1.4641~9.2911之间,座位平均杂合度在0.2618~0.7672之间,品种平均杂合度在0.5196~0.7024之间,其中SRCRSP23位点和河西绒山羊(HXR)平均杂合度最高。聚类关系(NJ和UPGMA)和主成分分析结果与其起源、育成历史及地理分布基本一致。  相似文献   

17.
The black-spotted tokay gecko and red-spotted tokay gecko have different distribution areas and are significantly different in appearance but are classified into the same species Gekko gecko. Twelve microsatellite loci were isolated, characterized and evaluated from wild black-spotted tokay geckos for the first time. Of them, nine loci were successfully amplified in red-spotted tokay geckos using multiplex polymerase chain reactions (PCRs). A total of 208 different alleles were observed in the 70 wild black-spotted and red-spotted tokays, and the average number of alleles per locus was 17.3. The average values for observed heterozygosity, expected heterozygosity and polymorphism information content were 0.762, 0.891 and 0.871, respectively, which showed that the wild G. gecko population had a high level of genetic variability. Both black-spotted tokays and red-spotted tokays showed a significant (P < 0.001) deficit of heterozygotes. The red-spotted tokay (HE = 0.881, A = 16.4) had a higher level of genetic variability than black-spotted tokay (HE = 0.804, A = 10.7). The pairwise FST (P < 0.001) estimates of the two types of tokay were 0.143, which indicated that there was a significant level of genetic differentiation between the two.  相似文献   

18.
H H?ger 《Jikken dobutsu》1992,41(2):215-220
Survey in protein polymorphism in the nucleus colony of the Him: OF 1-mouse outbred stock showed that 8 of 53 loci were variable in the stock. Allele frequencies of these eight loci (Idh-1, Mup-1, Pgm-1; Ldr-1, Gpi-1s, Hbb, Mod-1, Ce-2) changed between generations investigated. The average percentage of heterozygote animals for these loci decreased with generation. These suggested that genetic drift occurred in the breeding stock. Examination in the breeding record sheets showed that genetic drift was caused by mistakes in mating probably due to repeated personnel changes and insufficient training of the animal technicians. Mice had not been paired according to the schemes prescribed, pairing among relatives and reduction of the number of litters used for mating occurred. The increase in homozygosity showed only little effect on breeding parameters: The interval between pairing and first and second litter increased significantly.  相似文献   

19.
Genetic variation at 18 microsatellite loci was analysed in six indigenous Spanish sheep: Churra; Latxa; Manchega; Rasa-Aragonesa; Castellana and Merino. Merinos had frequently the highest number of alleles per locus, whereas Latxas showed the lowest one at many loci. Markers ordered decreasingly according to the number of variants differentiated in the whole population were: MAF70; TGLA13; CSSM66; BM143, BM6444; MAF36; MAF64; CSSM6; TGLA53; OarFCB11; MAF33; BM4621; MAF48; MAF65; BM1258; ILSTS002; ADCYC and OarCP34. Parameters of variability such as effective number of alleles and gene diversities corroborated the high level of variation frequently displayed by microsatellite markers. Comparison of allele distributions among populations and loci did not reveal consistent shapes. Distributions were centralised in some cases, whereas in others some kind of skewness was evident. Breed-specific alleles were detected at most loci, being frequent in Merinos and rare in Churras.  相似文献   

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