菲律宾蛤仔人工选育群体与野生群体的遗传多样性分析

本研究利用10对微卫星标记对菲律宾蛤仔(Ruditapes philippinarum)人工选育群体与野生群体进行遗传多样性分析。结果表明,每个位点的等位基因数为3~12个,期望杂合度范围为0.307~0.757,观测杂合度范围0.208~0.583。等位基因丰富度AR的大小范围是3.0~10.7,PCR扩增产物片段大小在178~390 bp,共得到63个等位基因,平均等位基因数范围从4.4(白蛤)到5.1(龙王塘野生群体),野生群体等位基因丰富度最大(5.278),白蛤群体的等位基因丰富度最小(4.267)。哈迪–温伯格检验发现4个群体和10对微卫星的40个组合中,有21个组合显著偏离哈迪–温伯格平衡状态。Kruskal-Wallis检验表明各个群体间的平均等位基因丰富度无显著差异。4个群体遗传分化系数F_(st)在0.086~0.180,遗传分化最大的是白斑马蛤群体与龙王塘野生群体(F_(st)=0.180),遗传分化最小的是白蛤群体和海洋橙群体(F_(st)=0.086)。人工选育群体表现为中度分化水平(F_(st):0.086~0.113);龙王塘野生群体与人工选育群体表现为较大分化水平(F_(st):0.134~0.180)。结果表明,人工选育群体的遗传多样性仍然比较高,但连续的选育对群体的遗传多样性和遗传分化有一定程度的影响。     

利用微卫星荧光多重PCR技术分析壳白长牡蛎3代人工选育群体的遗传多样性

为了探讨壳白长牡蛎人工选育对群体遗传变异的影响,实验利用4个多重PCR组合共10个微卫星标记分析了连续3代壳白长牡蛎人工选育群体和野生群体及基础群体的遗传多样性。结果发现,6个群体的平均等位基因数量为7.2~12.6,等位基因丰度为6.8~11.0,期望和观测杂合度分别为0.672~0.769和0.486~0.542;与野生群体相比,3代选育群体的平均等位基因数显著降低,但平均期望杂合度并无显著差异。哈迪—温伯格平衡检验结果显示,在60个群体—位点组合中有39个群体—位点组合显著偏离哈迪—温伯格平衡,近交系数F_(is)范围为0.215~0.342。群体间遗传分化指数F_(st)范围为0.005~0.076,处于中—低等的遗传分化水平。研究表明,虽然连续选育对群体的遗传多样性和遗传分化造成了一定程度的影响,但人工选育群体依然表现为较高的遗传多样性,仍可以一定的选择压力对选育群体进行人工选育。     

中华绒螯蟹野生群体和不同水系人工选育群体的遗传多样性分析

本研究利用10个微卫星分子标记分析了中华绒螯蟹(Eriocheir sinensis) 3个不同水系人工选育群体(“长江1号”、“光合1号”和七里海河蟹)和1个海河流域自然群体的遗传多样性和遗传分化水平。结果显示，10个位点在4个群体中的等位基因数(N)为3~17，平均等位基因数为8.5~9.7，平均期望杂合度为0.720~0.745，平均观测杂合度为0.566~0.661，平均多态信息含量为0.687~0.716，近交系数(Fis)范围为–0.080~0.827。在40个群体–位点组合中，有13个群体–位点组合显著偏离哈迪–温伯格平衡(P<0.05)。遗传多样性分析结果显示，与海河自然群体相比，3个人工选育群体遗传多样性水平略有降低，但仍保持在较高水平，具有较大的选育潜力。遗传分化分析结果显示，群体间遗传分化指数(Fst)范围为0.015~0.075，遗传相似度为0.7702~0.9401，遗传距离为0.0617~0.2611。基于Nei’s遗传距离构建了群体UPGMA系统进化树，自然群体和“光合1号”聚为一支，而七里海河蟹群体单独聚为一支。综上所述，4个中华绒螯蟹群体间的遗传分化水平较低，群体遗传多样性较高。本研究将为中华绒螯蟹选育繁育和种质资源利用与管理等提供理论基础。     

马氏珠母贝F8代4种壳色选育群体的EST-SSR遗传多样性分析

利用10对EST-SSR分子标记研究红、白、黑、黄4种壳色马氏珠母贝F8代人工选育群体的遗传多样性。结果显示,10个位点共扩增出46个等位基因,各位点的等位基因数为2~7。红、黑、白、黄4种壳色群体的平均等位基因数分别为4.0、3.7、3.6、3.5;平均观测杂合度和平均期望杂合度分别为0.445~0.627和0.479~0.580;Shannon多样性指数为0.850~1.042;平均多态信息含量为0.423~0.509。黄壳色群体中各遗传参数值最小,而红壳色群体中除有效等位基因数外,其余参数(等位基因数、观测杂合度、期望杂合度、多态信息含量、Shannon多样性指数)值均最大。40个群体—位点组合中有31个组合显著偏离平衡(P0.05),占总位点的77.5%。群体间的遗传分化指数为0.0101~0.3025,平均值为0.1206(0.05遗传分化指数0.15),处于中等程度分化,这与课题组8年定向选育有关。群体间的基因流值为0.5764~24.5841,平均值为1.8225。红壳色群体和黑壳色群体的遗传相似系数最大(0.8418),遗传距离最小(0.1722),最先聚为一类;白壳色群体和黄壳色群体的遗传相似系数最小(0.7107),遗传距离最大(0.3415)。经8代群体继代选育,4种壳色马氏珠母贝群体仍保持着较高的遗传多样性,其中红壳色群体的遗传多样性最高,黄壳色群体的遗传多样性最低。     

长牡蛎(Crassostrea gigas)壳宽快速生长选育群体遗传多样性及遗传结构的微卫星标记分析

为了监测长牡蛎(Crassostrea gigas)在选育过程中的遗传变异、分析选育对其遗传结构的影响,本研究以选育目标为壳宽快速生长的长牡蛎为实验材料,利用微卫星(Simple Sequence Repeats)标记技术,对长牡蛎基础群体(P0)和连续两代选育群体(F1和F2)进行遗传多样性评估。结果发现,所有微卫星位点在3个群体中都表现出了较高的多态性,P0、F1和F2代群体的平均等位基因数分别为16.5、12.2和12.8;P0、F1和F2代群体多态性信息含量(Pic)的平均数值分别为0.9068、0.8982和0.8836。所有群体10个位点的观测杂合度值(Ho)均小于期望杂合度值(He),观测杂合度平均值的大小范围为0.5775–0.6484,期望杂合度范围为0.8594–0.9279。哈迪-温伯格平衡(HWE)结果显示,3个群体在10个位点上有24个群体的位点组合显著偏离HWE(P<0.05),说明人工选育对选育群体的遗传结构有一定的影响。3个群体在10个位点上的Fis值均为正值,平均范围为0.1541–0.2341,表明群体内各位点上的杂合子比例有所下降;各群体间Fst值范围为0.0093–0.0245,遗传分化程度较弱。此研究表明,以壳宽快速生长为选育目的,长牡蛎连续选育群体仍具有很高遗传多样性,人工选育过程中保持一定选择压力,仍然会使长牡蛎的优良生长性状得到不断提高。     

长牡蛎(Crassostrea gigas)壳宽快速生长选育群体遗传多样性及遗传结构的微卫星标记分析

为了监测长牡蛎(Crassostrea gigas)在选育过程中的遗传变异、分析选育对其遗传结构的影响,本研究以选育目标为壳宽快速生长的长牡蛎为实验材料,利用微卫星(Simple Sequence Repeats)标记技术,对长牡蛎基础群体(P0)和连续两代选育群体(F1和F2)进行遗传多样性评估。结果发现,所有微卫星位点在3个群体中都表现出了较高的多态性,P0、F1和F2代群体的平均等位基因数分别为16.5、12.2和12.8;P0、F1和F2代群体多态性信息含量(Pic)的平均数值分别为0.9068、0.8982和0.8836。所有群体10个位点的观测杂合度值(Ho)均小于期望杂合度值(He),观测杂合度平均值的大小范围为0.5775–0.6484,期望杂合度范围为0.8594–0.9279。哈迪-温伯格平衡(HWE)结果显示,3个群体在10个位点上有24个群体的位点组合显著偏离HWE(P0.05),说明人工选育对选育群体的遗传结构有一定的影响。3个群体在10个位点上的Fis值均为正值,平均范围为0.1541–0.2341,表明群体内各位点上的杂合子比例有所下降;各群体间F_(st)值范围为0.0093–0.0245,遗传分化程度较弱。此研究表明,以壳宽快速生长为选育目的,长牡蛎连续选育群体仍具有很高遗传多样性,人工选育过程中保持一定选择压力,仍然会使长牡蛎的优良生长性状得到不断提高。     

仿刺参中国群体与韩国群体杂交子代微卫星标记分析

应用微卫星DNA技术对仿刺参中国群体、韩国群体及其杂交后代的遗传多样性进行了研究。15对微卫星引物共扩增获得60个等位基因,平均等位基因数为4,平均有效等位基因数为2.5855。3个群体的平均观测杂合度分别为0.2965、0.3548、0.2755,平均期望杂合度为0.5296、0.5574、0.5364,多态性信息含量为0.0000~0.8480,平均值为0.4653、0.4860和0.4630。Hardy-Weinberg平衡的P值检验,发现3个群体普遍存在偏离平衡的现象。试验结果表明,15个位点中,14个位点为中度或高度多态,3个群体多样性处于中等偏上水平;韩国群体的遗传多样性水平在3个群体中最高,杂交后代并未表现出明显的杂种优势,但在某些微卫星位点观测到的等位基因频率和基因型频率表现出与亲本的差异,说明杂交过程使后代获得了一定程度的遗传分化,中国群体与韩国群体的杂交后代具一定的选育潜力。     

合浦珠母贝选育基础群体的遗传多样性评价

利用微卫星标记对2012年3月和6月分别构建的两批共17个合浦珠母贝(Pinctada fucata)选育基础群体进行了遗传多样性分析。6对微卫星引物在17个群体共680个个体中检测到29个等位基因,每个位点的等位基因数在2~7之间,平均有效等位基因数在2.06~3.07之间,平均观测杂合度在0.31~0.58之间,平均期望杂合度在0.46~0.65之间,平均多态信息含量在0.39~0.58之间,高度多态(PIC≥0.50)群体有11个(占64.7%)。Hardy-Weinberg平衡检验(卡方检验)的结果显示,在检测得到的102个数据结果中,有53个(占52.0%)极显著地偏离了Hardy-Weinberg遗传平衡(P0.01)。从遗传偏离指数(D)的结果可以看出,17个群体在不同的微卫星位点存在不同程度的杂合子缺失现象。本研究表明,两批群体的遗传多样性参数非常接近,每个群体的遗传多样性都较高,对群体之间的遗传距离和遗传分化格局有了初步的把握,为下一步交配设计构建下一代核心群体奠定了理论基础。     

秦皇岛海域野生牙鲆群体遗传多样性分析

用18对多态性微卫星标记对采自秦皇岛海域的90尾野生牙鲆(Paralichthys olivaceus)进行遗传分析。18个微卫星位点共检测出161个等位基因;各位点等位基因数为7~11个,平均为8.9;有效等位基因为3.7~8.0,平均有效等位基因为5.9;各个位点多态信息含量为0.69~0.86,平均值为0.80;Shannon多样性指数平均值为1.9;观测杂合度(Ho)值为0.33~0.87,平均值为0.64;期望杂合度为0.74~0.89,平均期望杂合度(He)为0.84。χ2检验表明,18个位点中有9个的等位基因分布偏离了哈迪温伯格平衡(P<0.05)。研究结果表明,秦皇岛海域野生牙鲆群体遗传信息含量丰富、等位基因分布均匀,遗传多样性较高,但是,存在Hardy-Weinberg不平衡现象。     

利用微卫星标记分析3个暗纹东方鲀(Takifugu obscurus)养殖群体的遗传多样性

针对3个暗纹东方鲀养殖群体,采用21对微卫星引物对其遗传多样性进行分析,成功扩增出具有一定多态性片段的微卫星位点共19个。共得到125个等位基因,每位点等位基因数为3-11,平均值为6.58,有效等位基因数为1.7-7.8,平均值为4.5,平均观测杂合度为0.156-1.000,平均期望杂合度为0.399-0.876,平均多态信息含量(PIC)为0.353-0.858。广州、上海、江苏3个群体的PIC由小到大依次为0.588、0.633、0.655,三群体间遗传分化指数分别为0.048、0.062、0.076,平均值为0.081,表明三群体间发生了小程度的遗传分化。三群体间的遗传距离和UPGAM分析显示,广州和上海群体的遗传距离最远(0.351),广州和江苏群体的遗传距离最近(0.204),聚类分析显示,广州群体和江苏群体聚为一类,上海群体为一类。研究结果基本符合养殖群体的养殖环境,也表明3个养殖群体发生了一定程度的遗传分化,特别是江苏群体的遗传多样性较高,作为选育群体具有一定的遗传潜力。     

近交对长牡蛎幼虫和稚贝生长与存活的影响

分别以2010年通过2个野生个体进行交配获得的A01全同胞家系和2011年通过A01家系子代进行交配获得A02全同胞家系为亲本,在2013年6月采用同时建立全同胞交配子一代F1(F=0.250)、全同胞交配子二代F2(F=0.375)及设置对照组(F=0)的方法,研究在相同环境条件下,不同实验组的受精率与孵化率以及近交对长牡蛎幼虫期、稚贝期生长和存活的影响,并初步探讨近交代数与近交衰退的关系。结果发现,各组的受精率均在90%以上,除F2组外其余2组的孵化率也在90%以上;幼虫阶段,F1组和F2组的壳高与壳长均从12日龄出现衰退(近交衰退系数,inbreeding depression coefficient,IDC0),且F2组壳高的近交衰退系数均小于同日龄F1组壳高的近交衰退系数;F1组和F2组的存活率在整个幼虫期间均出现衰退,且F1组和F2组存活率的近交衰退系数均随着幼虫日龄的增加而逐渐减小。稚贝阶段,F1组和F2组的平均壳高在各日龄均表现出近交衰退(IDC0),且F2组壳高的近交衰退系数均小于相同日龄F1组壳高的近交衰退系数;3个实验组的平均壳长在整个稚贝阶段无显著性差异;F1组和F2组存活率的衰退在不同日龄始终存在(IDC0),且随着稚贝日龄的增加其衰退程度逐渐加大。研究结果为长牡蛎选择育种和遗传改良提供了基础资料。     

福瑞鲤与豫选黄河鲤选育群体的遗传结构及亲本间遗传距离分布

用微卫星标记分析了鲤鱼(Cyprinus carpio L.)的2个品种福瑞鲤和豫选黄河鲤选育群体的遗传结构,并揭示了雌雄个体间遗传距离的分布规律。结果表明,23个微卫星标记在福瑞鲤(FR,n=192)和豫选黄河鲤(YX,n=96)中各检测到160个和131个等位基因。福瑞鲤的平均有效等位基因数(N_e)、观测杂合度(H_o)、期望杂合度(H_e)和多态信息含量(PIC)分别为4.559、0.695、0.741和0.702,群体处于高度多态水平(PIC≥0.5);豫选黄河鲤的4项遗传多样性参数分别为3.620、0.665、0.642和0.600。虽然豫选黄河鲤同样处于高度多态水平(PIC≥0.5),但是N_e、H_e和PIC均极显著低于福瑞鲤(P0.01),说明福瑞鲤的杂交选育背景决定了其较系统选育的豫选黄河鲤具有较多的来源于不同亲本的等位基因;而两者H_o差异不显著(P0.05),说明豫选黄河鲤种内也保持了较高的遗传杂合度。分别统计福瑞鲤与豫选黄河鲤雌雄个体间的遗传距离,结果表明两两雌雄个体间遗传距离呈正态分布。福瑞鲤个体间遗传距离的中间值位于0.8~1.0,占37.39%;而豫选黄河鲤个体间遗传距离中间值位于0.5~0.7,占49.33%。建议福瑞鲤和豫选黄河鲤在家系配组时,选择亲本间遗传距离阈值范围在0.8~1.0和0.5~0.7为宜。     

Polymorphic analysis of microsatellite DNA in wild populations of Chinese shrimp (Fenneropenaeus chinensis)

Primers were designed for eight microsatellite loci from Chinese shrimp Fenneropenaeus chinensis. Microsatellites were used to characterize three wild populations from the China coast of the Yellow and Bohai Seas (HB), and the west coast (KX) and south coast of the Korean Peninsula (KN). A total of sixty‐one alleles were obtained, and the average observed heterozygosity ranged from 0.660 to 0.756. Six of the 24 population‐locus cases showed a significant departure from the Hardy–Weinberg equilibrium, three of them from population KN, two from KX and one from HB. The F_st values indicated that genetic variation was greater within populations than between populations. Analysis using unweighted pair group method with arithmetic mean showed that the relationship between populations HB and KX was closer than between KN and the other two populations. Polymorphic information contents of the eight microsatellites ranged from 0.598 to 0.918. These results indicated that all eight microsatellite loci would be useful for the analysis of genetic variation in Chinese shrimp (F. chinensis) populations.     

Survey of genetic variation at three microsatellite loci in captive populations of endangered Japanese minnow <Emphasis Type="Italic">Aphyocypris chinensis</Emphasis> with implications for reduction of inbreeding

The Japanese population of the cyprinid minnow Aphyocypris chinensis is nearing extinction in the wild. The genetic diversity of three microsatellite loci in five captive populations was investigated, and an effective breeding strategy to reduce inbreeding from pairwise relatedness (R _xy ) between each captive line is discussed. The average number of alleles ranged 2.33–4.67 and the average heterozygosity ranged 0.283–0.602. The pairwise relatedness observed in most combinations showed a significant decrease between the populations. It is suggested that exchange of individuals between different breeding lines should effectively stop inbreeding. Studies show that the effective population size (N _e ) estimated from the number of parental individuals was 8.54 in one captive population, which is insufficient to maintain genetic diversity. It is recommended that more parental individuals should be used, and to exchange fish in a rotating mating mode between institutions participating in captive breeding of A. chinensis.     

利用高通量测序开发的熊本牡蛎微卫星标记评价野生和养殖群体的遗传多样性及通用性

利用高通量测序的方法,从熊本牡蛎基因组中开发了20对具有多态性的微卫星标记,通过微卫星标记位点比较了野生群体和养殖群体的遗传多样性。野生群体中,所有位点共扩增出330个等位基因,等位基因数(N_a)范围为6～39,平均等位基因数为16.500 0;有效等位基因数(N_e)范围为1.352 9～33.361 7,平均值9.517 2;观测杂合度(H_o)范围为0.200 0～1.000 0,平均值0.671 5;期望杂合度(H_e)范围为0.265 6～0.987 7,平均值0.832 1;ShannonWeiner指数(Ⅰ)范围为0.648 3～3.585 8,平均值2.276 9;多态信息含量(PIC)范围为0.254 5～0.969 2,平均值0.803 5,共有16个位点符合Hardy-Weinberg平衡。养殖群体中,N_a平均值为10.250 0,N_e平均值为5.843 4,H_o平均值为0.639 1,H_e平均值为0.763 6,I平均值为1.791 4,PIC平均值为0.720 7。结果显示,熊本牡蛎养殖群体的遗传多样性低于野生群体,但仍然维持在高度多态水平。研究表明,在熊本牡蛎人工繁育过程中,使用大数量的亲本进行繁育,可有效防止选育群体的遗传多样性降低,但人工选育对选育群体的遗传多样性也产生了一定的影响。另外,分析了这些引物在近缘种葡萄牙牡蛎、长牡蛎、香港牡蛎、有明牡蛎、僧帽牡蛎、咬齿牡蛎以及舌骨牡蛎中的通用性情况,发现XB1-6、XB1-39和XB1-45 3个位点在8个物种中均能扩增出目的条带,XB1-41仅能在熊本牡蛎中扩增出目的条带。     

Genetic diversity status of Pacific white shrimp (<Emphasis Type="Italic">Litopenaeus vannamei</Emphasis>) using SSR markers in Iran

Genetic diversity is vital for the maintenance of genetic pool in cultured shrimps. In order to estimate the current status of genetic diversity in Litopenaeus vannamei shrimp in Iran, as an exotic species, a total of 45 individuals from Amiri and Gorgeaj farms in Jask port of Hormozgan province and one hatchery in Gomishan city of Golestan province, were detected using four microsatellite loci. The number of alleles per locus was 5–10, and the mean effective number of alleles (N _e) across populations and loci ranged from 4.834 to 5.148. The overall mean observed heterozygosity (H _o) ranged from 0.450 to 0.479, which was lower than the expected one (0.789–0.794). There was nothing remarkable about any of the allele frequencies across populations or loci. The mean inbreeding coefficient (F _IS) and pairwise genetic differentiation (F _ST) among populations were 41.6 % and 0.133, respectively. The three studied populations departed from Hardy–Weinberg equilibrium (HWE). Analysis of molecular variance revealed 14 % variability among and 86 % within populations. However, considering departing from HWE and the high F _IS and F, the moderate pairwise F _ST values, importance of introducing genetically diverse broodstock and monitoring to control inbreeding is discussed.     

The impact of successive mass selection on population genetic structure in the Pacific oyster (<Emphasis Type="Italic">Crassostrea gigas</Emphasis>) revealed by microsatellite markers

To evaluate the impact of mass selection on genetic structure in artificially closed populations of the Pacific oyster Crassostrea gigas, we performed mass selection over six generations on two stocks from Japan and Korea and analyzed their temporal genetic variation and structure using 18 microsatellite makers, which were compared with the base populations of the two selected lines and one wild population from China. The average numbers of alleles (Na), mean observed heterozygosities (Ho), and expected heterozygosities (He) varied over generations in the two selected lines (selected lines of Japan, Na = 10.7–14.9, Ho = 0.757–0.846, He = 0.778–0.871; selected lines of Korea, Na = 9.4–17.3, Ho = 0.736–0.865, He = 0.744–0.854). There was no significant reduction in heterozygosity in the two selected lines. However, the average number of alleles per locus was significantly lower in the fifth and sixth generations of the two selected lines compared with that in the base population and wild population (P < 0.05), suggesting that the successive mass selection in closed populations may increase the sensibility of rare alleles to genetic drift. Equalizing the sex ratio of parents and reducing the selection intensity properly with the increase of selective generations is recommended to minimize the deleterious effect of genetic drift and bottleneck caused by successive mass selection. The information obtained in this study is useful for the design of appropriate management strategies for selective breeding of C. gigas.     

Parentage Determination and Effective Population Size Estimation in Mass Spawning Pacific Oyster,Crassostrea gigas,Based on Microsatellite Analysis

Seven high polymorphic microsatellite loci were used to determine the pedigrees in a mass spawning of Pacific oyster, Crassostrea gigas, and to estimate the genetic variability between broodstock and offspring. Parental assignment was performed on a total of 155 individuals, including 141 offspring, 8 candidate mothers, and 6 candidate fathers. The assignment results of real offspring were generally in agreement with simulation with a success rate over 99% using only six of these loci. The allelic diversity and observed heterozygosity (H_o) exhibited similarity between parents and offspring populations, but the expected heterozygosity (H_e) had a significant decrease in offspring. Although all the males and females contributed to the next generation, the variances of reproductive success and unequal sex ratio resulted in a decline in effective population size (N_e = 11.42). The inbreeding rate of this small‐scale, mass spawning population was estimated at approximately 16.5% per generation. This gave us an insight that when designing breeding programs based on mass spawning for future oyster cultivation generations, the higher inbreeding and lower effective population size should be considered.