鄱阳湖长江江豚的微卫星遗传多样性及发展预测

为了科学评估鄱阳湖长江江豚(Neophocaena asiaeorientalis asiaeorientalis)的遗传多样性并预测其发展趋势,研究基于124头活体长江江豚的血液样本及42头搁浅死亡长江江豚的组织样本,利用微卫星遗传标记对该种群的遗传多样性进行了评估,并利用BottleSim软件对该种群遗传多样性的发展趋势进行了模拟预测。研究结果显示,鄱阳湖长江江豚种群10个微卫星位点的平均等位基因数(N_a)为5.80、平均观察杂合度(H_o)为0.653、期望杂合度(H_e)为0.664,表现出中等程度的核DNA遗传多样性;在剔除死亡个体后,平均等位基因数下降至5.50,并且死亡个体在3个微卫星位点上具有3个稀有等位基因,表明非正常死亡将导致鄱阳湖种群遗传多样性下降。此外,模拟结果表明,如果保持当前有效种群(N_e=62)和雌雄性比(0.87:1),鄱阳湖长江江豚种群的遗传多样性将快速下降;而要实现100年内保存90%以上遗传多样性的目标,则其有效种群至少需要200头或者实际种群数量超过1000头。研...     

草鱼种群SSR分析中样本量及标记数量对遗传多度的影响

利用45对微卫星分子标记（SSR）,以草鱼(Ctenopharyngodon idellus)自然群体为实验材料,探讨野生群体遗传多样性研究中所需的最适样本量与标记量。实验设置6个样本量梯度,9个标记量梯度。对等位基因数（Na）、有效等位基因数（Ne）、观察杂合度（Ho）、期望杂合度（He）等遗传多样性指标的变化趋势进行统计分析。结果表明,样本量、微卫星标记的数量和多态性水平对群体遗传多样性均有较大的影响,其中等位基因数与样本量大小呈显著正相关,而杂合度随标记量的增多而剧烈波动。当取样量大于40,标记量大于25时,各遗传参数值趋于稳定。因此,在应用微卫星标记对水产动物自然群体的遗传学研究中,要根据所研究种类的特点,尽可能采样40尾以上,采用25个以上标记,避免由人为选择的偏差对群体遗传多样性水平的正确评估所造成的影响。同时根据上述研究结果,对陕西草鱼自然群体进行了遗传多样性的评估,结果显示该群体平均等位基因数（MNA）、平均有效等位基因数、平均观测杂合度、平均期望杂合度分别为7.26、4.21、0.73、0.68,认为该群体具有较高的遗传多样性。     

迁地保护

石首天鹅洲保护区自1992年正式成立之后。经过各方多年的努力,在该保护区中已经建立了一个稳步增长的。可以自由交配和繁殖的迁地保护江豚群体。天鹅洲故道长江江豚繁殖群体的建立是世界上第一次对鲸类动物进行迁地保护的成功尝试,肩负着物种保护的重任。     

天鹅洲迁地保护江豚种群近亲繁殖状况评估

长江江豚(Neophocaena asiaeorientalis asiaeorientalis)已处于极度濒危状况,迁地保护被认为是避免其灭绝最有希望的保护措施。本文选用21个多态性微卫星标记对2010年10月天鹅洲迁地保护江豚种群进行了亲子鉴定和亲缘关系分析,以检测该种群的近亲繁殖状况,为种群管理提供参考信息。本研究从18个体中检测到3个父-母-子家庭,以及母子和父子各1对。由于检测到的亲子关系较少,单从亲子鉴定结果不能判断该种群是否存在近亲繁殖。然而,亲缘关系分析结果表明,该迁地保护江豚种群的平均亲缘系数r为0.118 2,候选亲本间亲缘系数r为0.115 2,均显著高于长江江豚自然种群。而且,天鹅洲迁地保护江豚种群中具有亲缘关系的个体对达26.14%,高于自然种群6倍以上。此外,该种群的近交系数(Fis)为0.046。基于亲缘系数和近交系数的分析结果均表明,该种群存在较高的近交风险或者可能已经发生近交。本研究建议将种群中亲缘关系最多的雌性F34和雄性M45移出,并以每代(约5年)按雌雄1∶1的比例引进2头可繁殖个体,以降低近亲繁殖风险。此外,建议尽快为该迁地保护江豚种群构建遗传谱系,以便今后开展种群遗传管理。     

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。     

三角帆蚌微卫星多重PCR体系的建立及其应用

为了提高三角帆蚌微卫星分析效率,从已开发的微卫星标记中构建了三组四重PCR,并将稳定的多重PCR体系用于56个三角帆蚌紫色选育系的遗传多样性研究。结果表明该群体的平均等位基因数18.75,平均有效等位基因数为9.010,平均多态信息含量为0.857,平均观测杂合度和期望杂合度分别为0.809和0.876,香农多样性指数为2.422。运用Cervus v3.0软件对3个三角帆蚌全同胞家系共114个个体进行亲子鉴定,结果显示,使用该3组微卫星多重PCR体系进行亲子鉴定准确率为100%。该三角帆蚌微卫星多重PCR应用于三角帆蚌群体遗传多样性分析、亲子鉴定和家系管理等,可提高工作效率,降低实验成本。     

神农架川金丝猴人工补食群的遗传多样性和亲缘关系

以湖北神农架国家级自然保护区的川金丝猴人工补食群体为研究对象,利用微卫星遗传标记对该群体的遗传多样性和亲缘关系进行研究,并对其种群的遗传多样性发展趋势进行了预测。结果显示,12个微卫星位点在该补食群体中共检测到50个等位基因,平均观察杂合度和平均期望杂合度分别为0.668和0.630,多态信息含量为0.442-0.696,平均0.567。亲权鉴定中共鉴定出11个父-母-子单元,各单元未有近亲繁殖的状况。亲缘系数结果显示具有亲缘关系的个体对达21.64%,群体平均亲缘系数为0.1108,现6个家庭单元中有两对候选亲本具有亲缘关系,表明该群体存在较高的近交风险。遗传多样性变化趋势的模拟结果表明,种群的数量对遗传多样性的影响比较大,群体中雄雌比例也对遗传多样性的损失有影响;为避免近亲交配,保持群体的遗传多样性水平,建议进一步做好人工补食群金丝猴的个体识别,完善家庭系谱,明确繁殖个体的遗传背景;引入一批有效的建群者来增加种群的数量及优化雄雌的比例。     

可可西里自然保护区藏羚羊的微卫星多态性研究

藏羚羊是我国特有的珍稀濒危动物,对其开展遗传多样性的研究具有非常重要的科学价值。为了获取足够的遗传信息并进一步研究藏羚羊在核基因水平上的遗传多样性,对来自可可西里地区的75个藏羚羊干皮张样本进行了微卫星遗传多样性研究。研究从来自牛和绵羊的25个微卫星基因座中筛选到9个具有高度多态性的微卫星基因座(MCM38,MNS64,IOBT395,MCMAI,TGLA68,BM1329,BMS1341,BM3501和MB066)。用非变性聚丙烯凝胶电泳检测微卫星的PCR扩增产物,计算了这9个微卫星基因座的等位基因频率、多态信息含量、基因杂合度等指标并估算了种群数量。结果在75只藏羚羊中共检测到85个等位基因,9个微卫星基因座的等位基因数为7~12个,平均每个基因座检测到9.4个等位基因,有效等位基因数为处于4.676~9.169之间,平均为6.519;基因频率分布在0.007~0.313之间,多态信息含量在0.753~0.881之间,平均为0.818;观察杂合度为0.791~0.897,平均为0.844,期望杂合度为0.786~0.891之间,平均为0.838±0.0132,各基因座观察杂合度与期望杂合度比较接近。固定指数为-0.269~-0.097,平均为-0.163。Shannon’s指数为1.660~2.315,平均为1.990。种群数量的估算结果显示这75个体均来自同一种群。结果表明该种群在核基因水平仍具有丰富的遗传多样性。     

微卫星分型法应用于豢养繁殖长江江豚的父权鉴定

目的:鉴定武汉白鱀豚馆及安徽铜陵淡水豚保护区两个豢养长江江豚繁殖群体中出生的6头幼豚的生物学父亲.方法:选择8对江豚物种特异性微卫星引物对两个待鉴定群体的14个DNA样品进行了荧光标记PCR扩增,将纯化后的扩增产物在ABI3130遗传分析仪上进行基因分型,并根据GeneScan Rox 500内标确定不同等位基因的大小,随后对待鉴定对象进行等位基因分析,并计算主要多态性参数.结果:所采用的8个微卫星座位在待鉴定的两个江豚群体中均表现出不同程度的多态性.在母本已知的条件下,利用其中6个微卫星座位的等位基因数据,通过排除法成功地鉴定出两个繁殖群体中出生的6头幼豚的生物学父亲.结论:本研究首次成功地将6个物种特异性微卫星标记应用于豢养长江江豚的父权鉴定,从而为该物种微卫星亲子鉴定技术体系的建立及迁地保护繁殖群体遗传谱系的构建奠定了技术基础.     

用微卫星指纹识别天鹅洲保护区长江江豚个体

DNA指纹个体识别技术是保护遗传学研究中的一种非常重要的手段。为了准确地识别天鹅洲保护区中的每一头长江江豚以开展保护遗传学及其它相关研究 ,并实施有效的种群管理 ,本研究应用 4个微卫星座位初步构建了该群体的DNA指纹图谱 ,并利用此图谱成功地对不同时期在保护区捕获的江豚进行了个体识别研究。结果显示微卫星指纹技术是一种适用于长江江豚个体识别研究的可靠手段     

长江江豚微卫星DNA分离的初步研究

为了开发物种特异性微卫星标记,本文采用一种改良的快速微卫星分离法(FIASCO)从长江江豚(Neophocaena phocaenoides asiaeorientalis)的基因组中筛选得到72条微卫星DNA序列。根据重复单元的排列特点,完美型、非完美型及复合型序列所占的比例分别为58.3%、22.2%和19.5%。选择其中30条序列设计PCR扩增引物,并用12个随机选择的长江江豚样品进行多态性筛选。初步结果表明其中14对引物的扩增产物稳定并且具有多态性;在每个座位上获得2-13个等位基因,平均等位基因数为5.87个;14个微卫星座位的平均观察杂合度(Ho)和期望杂合度(He)分别为0.560和0.709。本研究获得了长江江豚的第一批物种特异性微卫星座位及其扩增引物,这些微卫星标记将在后续的保护遗传学研究中发挥重要作用。       

Mitochondrial control region variability of baiji and the Yangtze finless porpoises,two sympatric small cetaceans in the Yangtze river

BaijiLipotes vexillifer (Miller, 1918) and the Yangtze finless porpoiseNeophocaena phocaenoides asiaeorientalis (Pilleri and Gihr, 1972) are two sympatric small cetaceans inhabiting the middle and lower reaches of the Yangtze River. In this study, a fragment (420–428 bp) of the mitochondrial control region was sequenced to provide the first comparative survey of genetic variability and population structure in these two endangered species, with samples of finless porpoises from the Yellow/Bohai Sea, East China Sea, and South China Sea also included. Low values of haplotype diversity and nucleotide diversity were found for both species, especially for the baiji and the Yangtze River and South China Sea populations of finless porpoises. The analysis of molecular variance (AMOVA) supported a high level of overall genetic structure among three porpoise populations in Chinese waters, with greatest differences found between either the Yangtze River population or the Yellow Sea population and the South China Sea population. The differentiation between the Yangtze and Yellow Sea populations was not significant, and the males have higher genetic differentiation than the females, suggesting a significant female-biased dispersal between these two populations. This study showed that the Yangtze finless porpoise, unlike the sympatric baiji, was not a genetically isolated population. The Yangtze and Yellow Sea porpoises should be included in the same management unit, but further studies using more samples and especially based on more molecular markers are urgently needed to confirm this.     

High level population differentiation of finless porpoises (Neophocaena phocaenoides) in Chinese waters revealed by sequence variability of four nuclear introns

In the present study, sequence variations at four nuclear introns which were respectively from the parathyroid hormone-like (PTH) gene, isolate Pdalz1692 interferon (IFN) gene, peripherin-like (RDS) gene, and tyrosine kinase receptor-like (KIT) gene, were examined to analyze genetic diversity and population structure of the finless porpoise (Neophocaena phocaenoides) in Chinese waters. High among-population differentiation was revealed, with a significant genetic structure between populations (PTH: F(ST) = 0.29, P < 0.001; IFN1@: F(ST) = 0.23, P < 0.001; RDS: F(ST) = 0.12, P < 0.001; KIT: F(ST) = 0.16, P < 0.001) shown by the analysis of molecular variance. Although common haplotypes accounted for more than one half of all samples examined, many haplotypes were found to be population-specific. The Tajima's D, Fu's tests and mismatch distributions all suggested a recent colonization and population expansion of finless porpoises in Chinese waters. In view of special reference to the conservation priority of the Yangtze finless porpoises, special protection measures must be taken urgently for this population.     

鲸类微卫星引物对长江江豚的适用性研究

微卫星在长江江豚 (Neophocaenaphocaenoidesasiaeorientalis)中的应用研究还未见报道。本研究采用已发表的来自 6个鲸种的 2 3对微卫星引物对一个长江江豚群体DNA样本进行了微卫星扩增。结果表明其中有 7对引物在此群体中的扩增产物是稳定且多态的 ,序列分析结果表明这 7对引物的扩增产物都具有AC或GT两碱基重复单元 ,从而证明了扩增的有效性。研究结果表明用从其他鲸类分离出的微卫星引物可以快速筛选到适用于长江江豚指纹分析的引物     

Isolation and characterization of microsatellite loci in the finless porpoise (Neophocaena phocaenoides)

Eight dinucleotide microsatellite loci were isolated from the finless porpoise (Neophocaena phocaenoides). Analysis of 30 individuals showed the number of alleles ranged from four to 21 with observed heterozygosity ranging from 0.300 to 0.833, and expected heterozygosity ranging from 0.437 to 0.932. Cross‐species amplification was tested in four other cetacean species. These microsatellite markers would be valuable tools for population genetic studies of finless porpoises and other cetacean species.     

Population Genetic Structure of the Yangtze Finless Porpoise (Neophocaena phocaenoides asiaeorientalis): Implications for Management and Conservation

Understanding the population genetic structure is a prerequisite for conservation of a species. The degree of genetic variability characteristic of the mitochondrial DNA control region has been widely exploited in studies of population genetic structure and can be useful in identifying meaningful population subdivisions. To estimate the genetic profile of the Yangtze finless porpoise (Neophocaena phocaenoides asiaeorientalis), an endangered freshwater population endemic to China, the complete mtDNA control region was examined in 39 individuals belonging to seven different stocks inhabiting the middle and lower reaches of the Yangtze River. Very low genetic diversity was found (nucleotide diversity 0.0011± 0.0002 and haplotypic diversity 0.65± 0.05). The mtDNA genetic pattern of the Yangtze population appears to indicate a founder event in its evolutionary history and to support the marine origin for this population. Analyses by F_st and Φ_st yielded statistically significant population genetic structure (F_st = 0.44, P < 0.05; Φ_st = 0.36, P < 0.05). These results may have significant implications for the management and conservation of the Yangtze finless porpoise in the future.     

POPULATION GENETIC STRUCTURE OF FINLESS PORPOISES, NEOPHOCAENA PHOCAENOIDES, IN CHINESE WATERS, INFERRED FROM MITOCHONDRIAL CONTROL REGION SEQUENCES

Seven hundred and twenty base pairs (bp) of the mitochondrial control region from 73 finless porpoises, Neophocaena phocaenoides , in Chinese waters were sequenced. Thirteen variable sites were determined and 17 haplotypes were defined. Of these, 5 and 7 were found only in the Yellow Sea population and the South China Sea population, respectively, whereas no specific haplo-type was found in the Yangtze River population. Phylogenetic analyses using NJ and ML algorithm did not divide the haplotypes into monophyletic clades representing recognized geographic populations of finless porpoises in Chinese waters, suggesting the existence of migration and gene flow among populations. Analysis of molecular variance showed the obvious population genetic structure (φ_st= 0.41, P < 0.05); however, the structure was mainly between either the Yangtze River population or the Yellow Sea population and the South China Sea population. The genetic diversity (nucleotide diversity and haplotypic diversity) of the Yellow Sea population was significantly higher than those of the Yangtze River population and the South China Sea population, suggesting the relatively later divergence of the latter two populations and supporting the Yellow Sea population as the original center of Neophocaena .     

Detection of Helicobacter in the fecal material of the endangered Yangtze finless porpoise Neophocaena phocaenoides asiaeorientalis

In animals, infection by the Epsilonproteobacteria Helicobacter spp. and H. cetorum is widespread. It has been suggested that H. cetorum may cause gastritis in cetaceans. The aim of our study was to investigate the presence of Helicobacter spp. in the fecal material of the endangered Yangtze finless porpoise Neophocaena phocaenoides asiaeorientalis. The fecal material of 12 porpoises living in the wild in Poyang Lake and 1 porpoise living in captivity at the Wuhan Baiji Dolphinarium were examined by PCR for the presence of Helicobacter spp. The fecal material of 8 of 12 wild porpoises and the captive porpoise were positive for Helicobacter spp. as determined by PCR using Helicobacter-specific primers, which target the 16S rRNA gene. A 16S rRNA clone library was then prepared from 1 sample isolated from a female porpoise living in the wild. DNA sequence analysis from 3 of the clones showed 98 to 99% identity to the H. cetorum 16S rRNA gene. These results demonstrate the prevalence of Helicobacter spp. and H. cetorum in endangered freshwater finless porpoises.