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1.
中国明对虾第一代和第六代人工选育群体的遗传结构分析 总被引:15,自引:2,他引:15
采用RAPD技术对中国明对虾(Fenneropenaeus chinensis)第一代和第六代人工选育群体的遗传结构及其分化进行了分析。在20个10bp随机引物中筛选出16个引物,共扩增出89条DNA片段,其中多态性片段分别为34和30条,多态位点比例分别为38.2%5和33.71%。对2群体的遗传学参数计算结果表明:2群体间遗传分化指数为0.1408,属中等程度分化;群体间的遗传变异平均为0.197,由此可见,80%的遗传变异来自于群体内,而近20%的变异则是来自于群体间;第六代群体的多态位点比例和遗传多态度均低于第一代群体,这可能与人工定向选育过程中注重经济性状有关。 相似文献
2.
江苏及安徽地区十个中华绒螯蟹成蟹群体的RAPD分析 总被引:1,自引:0,他引:1
采用随机扩增多态DNA(RAPD)技术对取自江苏及安徽地区的10个群体的中华绒螯蟹共64个个体进行了遗传多样性分析.从24个随机引物中筛选出15个扩增重复性好、条带清晰、特异性强的引物,共检测出88个位点(100~2000 bp),各群体的多态位点比例为3.45%~26.19%,遗传多态度为0.0141~0.1036,说明该蟹类基因组DNA多态度较为贫乏,遗传变异水平较低;各群体间的遗传距离为0.0237~0.2466,遗传相似度为0.7815~0.9766,该蟹类群体之间发生了一定程度的分化;分化系数为0.4283~0.6632,Nm为0.2539~0.6674,表明该蟹类群体之间发生了不同程度的遗传变异和遗传交换. 相似文献
3.
松江鲈群体遗传多样性的ISSR分析 总被引:6,自引:0,他引:6
利用ISSR分子标记技术对辽宁丹东和河北秦皇岛2个地区松江鲈(Trachidermus fasciatus)群体的遗传多样性进行了分析。结果显示:77个ISSR引物中有4个引物能扩增出清晰条带,4个引物对两个群体各24个样品扩增出27个位点。松江鲈丹东和秦皇岛两群体的多态位点比率均为44.44%,Shannon′s指数分别为0.2728、0.2836。Shannon′s指数和AMOVA分析均显示松江鲈的遗传变异主要来自于群体内个体间。松江鲈UPGMA系统树没有依据群体分别聚类,无明显遗传趋异。两个松江鲈野生群体的平均杂合度和多态位点与处于濒危状态的江豚类似,多态性位点比例低于濒危状态的平胸龟和长江刀鲚。结果表明:两个地区松江鲈群体的遗传多样性处于较低水平,遗传变异相对贫乏;松江鲈丹东和秦皇岛两个群体间无明显的遗传分化,亲缘关系较近。 相似文献
4.
采用AFLP技术对大口黑鲈(Micropterus salmoides)F3、F4代选育群体的遗传结构进行分析,并计算2个选育群体和一个对照养殖群体的遗传多态度、遗传距离及分化系数。结果显示,8对AFLP引物共扩增到262条带,其中多态性条带有80条,每对引物检测到的多态性条带在5~13之间。F3、F4代选育群体和对照养殖群体的多态性位点比例分别为29.36%、29.20%、30.29%。Shannon多样性指数分别为0.2017,0.1955,0.2042。结果表明,选育群体相较于对照养殖群体多态位点比例和遗传多态度均有所下降。群体间的遗传变异平均为0.0752,由此可见,92.48%的遗传变异来自于群体内,而只有7.52%的遗传变异来自于群体间,这初步显示了大口黑鲈在遗传上的稳定性,群体尚具有一定的选育潜力,可继续进行人工选育。 相似文献
5.
皱纹盘鲍遗传多样性的RAPD分析 总被引:7,自引:0,他引:7
对采自山东长岛和辽宁大连海域的两个自然群体皱纹盘鲍的遗传多样性进行了RAPD分析。16个随机引物在两群体中共检测到了179个位点,其中,长岛和大连群体中的多态位点数分别为88和91个,两群体的多态位点百分率分别为49·16%和50·84%;Shannon′s多样性指数(H0)分别为0·2496和0·2668。有70%以上的遗传变异来自群体内,显示两群体内均有较高程度的遗传变异。研究结果表明,长岛和大连的皱纹盘鲍群体已出现了明显的遗传分化。 相似文献
6.
采用随机扩增多态DNA(RAPD)技术对李仙江流域景东、国庆和大寨长石爬鮡(Euchiloglanis longus)种群的遗传多样性进行了分析.从100条RAPD随机引物中筛选出20条引物,对长石爬鮡3个地理种群进行了分析;共检测到58个有效位点,其中多态位点36个,多态位点达62.07%,Nei基因多样性指数为0.2378,Shannon信息指数为0.3501.3个群体未检测到各自特有的扩增带.AMOVA分析结果显示,大多数(73.06%)的遗传变异由群体内不同个体间的遗传差异造成,26.94%的遗传变异来自于群体间.种群间的遗传分化系数(Gst)为0.2104,基因流Nm为1.8762.根据个体间遗传距离进行的PCoA分析显示,3个群体基本分开. 相似文献
7.
黄姑鱼群体遗传多样性的AFLP分析 总被引:19,自引:1,他引:19
对青岛和厦门黄姑鱼群体的遗传多样性进行了AFLP分析,5对选择性引物在两个群体47个个体中,共扩增出461个位点,多态位点265个。青岛和厦门群体的多态位点比例、Nei遗传多样性指数和Shannon遗传多样性指数分别为51.70%、51.99%,0.1022、0.0996,0.1643、0.1622;两个群体遗传多样性在同一水平上。基因分化系数Gst、Shannon遗传多样性指数和AMOVA分析均显示黄姑鱼的遗传变异主要来源于群体内个体间,而群体间无明显的遗传分化。群体的显性基因型频率分布和位点差异数分布显示两个群体有基本相同的群体遗传结构。结果表明,黄姑鱼青岛和厦门群体间无明显的遗传差异,群体间有明显的基因交流。 相似文献
8.
采用RAPD标记技术对取自韩国沿海和俄罗斯沿海的星突江鲽养殖子一代进行了遗传多样性分析。从40个10bp随机引物中筛选出11个效果稳定的引物,对每个群体40个个体进行扩增,各获得57个位点。韩国群体多态位点数为33个,其多态位点比例P为57.89%;俄罗斯群体多态位点数为32个,其多态位点比例P为56.14%。韩国群体和俄罗斯群体的Shannon遗传多样度分别为0.3384和0.2963,Nei的多样性指数h分别为0.2305和0.1947。星突江鲽两群体遗传多态度总量Hsp为0.4252。其中,群体内遗传多态度Hpop为0.3174,源于群体内的遗传多样性的比例为0.7465,而源于群体间的遗传多样性的比例为0.2535。 相似文献
9.
利用ISSR分子标记技术对长江下游苏州段野生和野生F1代人工养殖的2个鳡群体遗传多样性进行分析研究.从77个ISSR引物中筛选出4个引物对鳡2个群体48个样品进行扩增,得到41个清晰的扩增位点.鳡野生和野生F1代人工养殖2个群体的多态位点比率和群体内遗传多样性指数分别为21.95%、17.07%,0.0724、0.0426;前者遗传多样性较后者略高.基因分化系数Gst和群体内遗传多样性指数估算分析均显示2个鳡群体之间出现一定遗传分化.鳡UPGMA系统树有较明显的歧化,表现出一定的遗传趋异.结果分析表明,鳡群体的遗传多样性相对贫乏;野生F1代人工养殖群体尚未形成自己独立的遗传结构,但2个群体间已经产生了一定的遗传分化,经过较多世代的人工繁育有可能形成自己独立而稳定的遗传结构. 相似文献
10.
采用随机扩增多态DNA(random amplified polymorphic DNA,RAPD)技术检测广西沿海及其邻近海区拟穴青蟹(Scylla paramamosain)6个地理群体的遗传变异和遗传结构,8条10 bp寡核苷酸随机引物扩增99个个体,分析其中的44个位点,31个位点表现出多态性,在种水平的多态位点百分率为70.45%。POPGENE分析结果显示,6个群体的多态位点百分率为29.55%~54.55%,平均为36.97%;群体的遗传多样性自高至低排列为钦州湾群体〉党江群体〉珍珠湾群体〉闸口群体〉清化群体〉流沙湾群体;群体内的遗传变异大于群体间的遗传变异,群体间的遗传分化程度较大。AMOVA分析显示,群体内遗传变异占87.03%,群体间遗传变异占12.97%,群体间发生中等程度遗传分化。Mantel检测结果表明,拟穴青蟹6个群体间的遗传距离与地理距离之间的相关性不显著。聚类分析表明,群体间聚类无明显的地域性分布格局。 相似文献
11.
对虾抗病性状遗传标记的RAPD分析 总被引:20,自引:1,他引:20
对人工选育的第3代中国对虾和选育的第1代凡纳对虾进行个体人工感染WSSV后,选取感染WSSV十余天但仍健康的对虾为实验材料,用220个随机引物进行RAPD分析,得到抗病性状相关的特异性遗传标记99个。其中中国对虾抗病组特异性片段出现了18个,片段大小在460-2305bp之间;凡纳对虾抗病组特异性片段产生81个,片段大小在435-2287bp。77个引物在两种对虾的抗病组扩增出特异性遗传标记,其中有4个引物各获得了三个特异性片段,有13个引物各获得了两个特异性片段,其余61个引物各获得了1个特异性片段。 相似文献
12.
饲料转化率(FCR)是大菱鲆重要的经济性状,通过选择育种提高饲料转化率,能够有效地降低大菱鲆的养殖成本,进而推动产业的发展。微卫星标记是鱼类分子标记辅助选育中常用的分子标记,为了筛选出与大菱鲆饲料转化率相关的微卫星标记,提高育种效率,实验以300尾大菱鲆幼鱼为研究对象,通过特制的网箱养殖系统,测定个体饲料转化率,分别选取饲料转化率最高和最低的30个样本作为高饲料转化率组(H组)和低饲料转化率组(L组)。利用40对大菱鲆微卫星引物,对H组和L组的DNA混池进行PCR扩增,统计两组个体PCR产物的基因型,筛选两池之间出现差异等位基因片段的位点,通过进一步的群体验证和家系验证,分析微卫星位点与大菱鲆饲料转化率的相关性。结果显示,微卫星位点YSKr148在238 bp的等位基因片段与大菱鲆饲料转化率存在极显著正相关,相关系数达到0.359,家系验证中该位点的阳性组的饲料转化率显著高于阴性组。研究表明,大菱鲆微卫星位点YSKr148与饲料转化率性状显著相关,可以用于该性状的分子标记辅助选育。本研究首次获得了与大菱鲆饲料转化率性状显著相关的分子标记,为研究该性状的遗传基础以及相关分子机制提供了依据... 相似文献
13.
罗氏沼虾抗病选育群体的抗病性能及其遗传多样性分析 总被引:3,自引:1,他引:2
为深入了解罗氏沼虾抗病选育群体的抗病力和遗传信息,通过人工注射溶藻弧菌感染16个罗氏沼虾选育群体,并利用微卫星分子标记对选育群体进行遗传结构分析。结果显示,16个选育群体抗溶藻弧菌感染能力存在明显差别,并从中鉴定出抗病力强的群体3个(SCR11-6、SCR11-11和SCR11-16),其在感染溶藻弧菌感染后的成活率达80%;抗病力比较强的群体7个;抗病力一般的群体4个,成活率为65%~70%;抗病力差的群体2个,成活率为35%~50%。8对微卫星引物共检测到53个等位基因,每对引物的等位基因数为5~9个,平均为6.625个,多态信息含量(PIC)为0.629 4~0.829 4,平均为0.732 3。16个群体的平均PIC为0.493 2~0.695 6,平均观测杂合度为0.506 2~0.651 3,平均期望杂合度为0.551 9~0.733 2,遗传相似系数平均为0.655 2,遗传距离平均为0.434 4。并对DP和SP两群体罗氏沼虾个体扩增出的差异条带进行统计,分析其与罗氏沼虾抗病性状的相关性。结果表明,5个微卫星位点SUGbp8-103b、SUGbp8-101c、MRMB11、SUGbp8-137和MRMC2分别在203、263、185、335和96 bp等位基因与罗氏沼虾抗病性状存在一定的相关性,其中,位点MRMB11在185 bp等位基因跟抗病性有极显著的正相关性,相关系数为0.282。研究表明,16个选育群体中有4个群体的抗病力较强,同时与其它12个选育群体相比,这4个群体遗传多样性也比较丰富,这些罗氏沼虾群体的筛选为罗氏沼虾抗病新品种的培育奠定了重要基础。 相似文献
14.
Aquaculture is the fastest growing food producing sector in the world. However, diseases result in a major loss in production. Among the several management techniques, selective breeding for resistant trait is one of the most reliable methods and provides long-term control over disease problems. Field survival or challenge survival records provide initial information of resistant stocks. However, selection programmes demand a proper marker which can identify the resistant stock easily with much accuracy. Several immunological indicators associated with resistance to a particular disease have been reported. These include positively correlated markers such as level of natural and specific antibody, respiratory burst activity of phagocytes and level of acute-phase ceruloplasmin protein and negatively correlated markers such as serum lysozyme, haemolytic and haemagglutination activities. However, for few fish species and pathogen-specific markers viz., myeloperoxidase activity, cortisol and glucose levels, macrophage aggregation and the level of plasma proteins, a confined conclusion of association has not been established. Besides immunological markers, molecular markers are in use because of their reliable screening methods. Genome can be scanned for molecular markers which provide the full linkage map of a species or stock. Association of these molecular markers with resistant traits gives rise to quantitative trait loci (QTL) for resistance to a particular pathogen. Screening of resistant stock can be carried out using these markers. Among the several marker systems, amplified fragment length polymorphism, microsatellites and single-nucleotide polymorphism play a major role in the process of selection for disease resistance. With the use of these marker techniques, we can avoid challenge testing where a huge number of animals were being killed. Multiple trait selection can also be possible with multiple QTL identification for resistance to two or more diseases simultaneously. 相似文献
15.
本研究利用有丝分裂雌核发育建立牙鲆(Paralichthys olivaceus)双单倍体(Doubled Haploids,DH)群体,对牙鲆体重、全长、背鳍长、腹鳍长、体高、尾柄高、头高和躯干长共8组表型性状标准化处理后,进行主成分分析,得到可解释全部性状90.4%的表型主成分性状。然后,基于JoinMap 4、MapDisto、JoinMap 4-DistortedMap、MapDisto-DistortedMap构建4个连锁图谱,用偏分离标记矫正数量性状位点(Quantitative Trait Locus,QTL)基因型条件概率,采用Bayesian模型选择方法定位牙鲆表型主成分性状的加性QTL和上位性QTL。结果表明,用不同方法构建的遗传图谱和表型主成分性状QTL定位结果均有所不同。在图谱构建中,与基于JoinMap 4构建的图谱相比,基于MapDisto构建的图谱中偏分离标记的相对位置和遗传距离都发生了变化,甚至有5个偏分离标记没有被定位到相应的连锁群上;相对于基于JoinMap 4和MapDisto构建的图谱,经DistortedMap校正后的图谱中偏分离标记的相对位置没有发生变化,但是偏分离标记间遗传距离发生了变化。另外,在4个图谱中都检测到3个加性QTL,分别位于6号连锁群上,可解释表型变异的12.95%、14.85%、11.56%和11.76%,9号、22号连锁群上,具有负向加性效应;9号连锁群上,可解释表型变异的13.86%、13.27%、11.17%和11.25%,具有负向加性效应;22号连锁群上,可解释表型变异的5.68%、4.36%、4.97%和3.58%,具有正向加性效应。同时,分别检测到28对、19对、29对和20对上位性QTL,主要分布在6号、7号、9号、17号、20号和22号连锁群上,可解释表型主成分性状变异的2.19%~17.62%、2.40%~22.26%、2.08%~26.0%、3.16%~22.05%。研究结果表明,基于MapDisto软件构建、经DistortedMap软件包矫正后的图谱,定位结果更加准确,但仍需进一步验证。 相似文献
16.
Dina A. Proestou Ryan J. Corbett Tal Ben‐Horin Jessica M. Small Standish K. Allen 《Aquaculture Research》2019,50(8):2142-2154
Perkinsus marinus, the causative agent of Dermo disease, is responsible for mass mortalities and negatively impacts aquaculture production of the eastern oyster, Crassostrea virginica. Selective breeding is a viable option for Dermo disease management; however, fluctuations in natural selection pressure and environmental noise hinder accumulation of genetic gains acquired through field performance trials. The purpose of this study was to adapt and apply laboratory disease challenge methods to eastern oysters, better characterize resistance‐specific traits and assess the potential for genetic variation in Dermo resistance among distinct families within a breeding population. Two challenge experiments were conducted, one in 2014 and the other in 2015. Significant treatment (control vs. challenged) and family effects on survival (measured as per cent survival and days to death) were detected in the 2014 challenge, while overall high survival precluded the detection of a significant family effect in the 2015 challenge. An alternate measure of resistance, parasite elimination rate, was also measured in the 2015 challenge, and this varied significantly among families. Thus, both survival and the change in parasite concentration in oyster tissues over time represent Dermo resistance phenotypes that can be measured accurately with the adapted laboratory disease challenge protocol described here. The obvious next step is to incorporate the challenge protocol in eastern oyster breeding programmes to assess whether well‐defined, accurately measured, Dermo‐resistant phenotypes result in enhanced genetic improvement for this commercially important trait. 相似文献
17.
应用SSR和SRAP标记构建青虾遗传连锁图谱 总被引:4,自引:0,他引:4
采用SSR和SRAP标记结合拟测交策略构建青虾(Macrobrachium nipponense)遗传连锁图谱。共有175个标记(含27个SSR、148个SRAP标记)分布在53个连锁群上。每个连锁群含2~8个标记,其中不少于3个标记的连锁群有35个,连锁对18个,平均每个连锁群的标记数为3.3个;连锁群长度在6.7~91.2 cM之间,相邻标记间最大间隔为49.0 cM,最小为1.4 cM,平均间隔为13.1 cM。青虾框架图谱长度为997.2 cM,图谱观察总长度为2 270.5cM,根据估算,青虾遗传连锁图谱预期长度为4 380.6 cM,图谱的覆盖率为51.83%。本研究构建了青虾遗传连锁图谱,该图谱也是淡水虾蟹类第一张遗传连锁图谱,可为青虾QTL定位、基因克隆、遗传选育等提供指导,并为进一步构建高密度的青虾遗传连锁图谱奠定了基础。 相似文献
18.
镜鲤与建鲤生长性状共享 QTL 标记及优势基因型 总被引:1,自引:0,他引:1
本研究以1个镜鲤(Cyprinus carpio L.)全同胞家系(190个个体)构建的微卫星遗传图谱(992个标记)为基础,从体重、体长、体高和体厚的QTL区间内发掘了54个标记,其与性状具有显著相关性,进而通过对不同基因型性状间的比较,筛选出83个优势基因型。在此基础上,用54个镜鲤QTL标记分析了建鲤(Cyprinus carpio var.jian)作图群体,其中40个标记在建鲤中表现出多态性,比例为74.07%;相关性分析结果显示,其中22个标记与建鲤家系的体重、体长、体高或体厚性状具有显著相关性(P0.05),占多态标记的55.00%;镜鲤与建鲤共享的22个QTL标记中,18个标记与至少1个相同的性状具有显著相关性(P0.05),从中筛选出建鲤性状具有优势的基因型30个,可用于指导建鲤的选育。品种间共享QTL的发掘能够扩展QTL标记的使用空间,减少新品种重新构建图谱进行QTL标记定位的工作量和成本。 相似文献
19.
为选育优良的淇河鲫家系,本实验以4个鲤群体和1个淇河鲫(Carassius auratus var.Qihe)群体为亲本共建立家系19个。6月龄时从各家系随机选取50尾个体植入PIT标记,22月龄时测量其体长、体高与体质量,比较各个家系的养殖成活率、生长性状、变异系数及体型。共筛选出7号、10号和15号3个养殖成活率较高的家系、2号和11号2个快速生长家系以及2号和29号2个体型较高的家系,研究显示:各家系的养殖成活率、生长速度和体型与同源或异源精子无明显关联,而与具体的父母本有关,但是其变异系数在同源精子和异源精子建立的家系之间差别较大。 相似文献
20.
Mark Henryon Peer Berg Niels J. Olesen Torben E. Kj r Wilhelmina J. Slierendrecht Alfred Jokumsen Ivar Lund 《Aquaculture (Amsterdam, Netherlands)》2005,250(3-4):621-636
In this study, we reasoned that if we challenged rainbow trout with the causative agents of enteric redmouth disease (ERM), rainbow trout fry syndrome (RTFS), and viral haemorrhagic septicaemia (VHS), we would: 1) detect additive genetic variation for resistance to ERM, RTFS, and VHS; and 2) find that resistance of the trout to ERM and RTFS are favourably correlated genetically, while resistance to VHS is unfavourably correlated with resistance to ERM and RTFS. We tested these premises by challenging 63 full-sib families of rainbow trout (50 sires, 38 dams) with Yersinia ruckeri, Flavobacterium psychrophilum, and VHS virus, the causative agents of ERM, RTFS, and VHS. Resistance to each disease was assessed as both a binary trait (i.e., died/survived) and a longitudinal trait (i.e., time until death following challenge). Additive genetic variation and genetic correlations for resistance to ERM, RTFS, and VHS were estimated by fitting a threshold liability model to resistance assessed as a binary trait. As a longitudinal trait, additive genetic variation and genetic correlations were estimated by fitting a Weibull frailty model to the times until death. Our findings support the first of our premises as we detected additive genetic variation for resistance to ERM, RTFS, and VHS. The heritability for resistance to ERM, RTFS, and VHS ranged between 0.42 and 0.57 on the underlying liability scale when resistance was assessed as a binary trait. As a longitudinal trait, the heritabilities ranged between 0.07 and 0.21 for time until death on the logarithmic-time scale. We were, however, unable to support our second premise as we found that resistance to each of the diseases tended to be weakly correlated genetically. The genetic correlations between the resistances ranged between −0.11 and 0.15 when resistance was assessed as a binary trait, and between −0.23 and 0.16 when resistance was assessed as a longitudinal trait. These findings are encouraging for commercial trout production. The additive genetic variation detected for resistance demonstrates that selectively breeding trout for resistance to ERM, RTFS, and VHS will be successful, providing a complementary approach to control these diseases. The weak genetic correlations suggest that it should be relatively easy to improve resistance to each of the diseases simultaneously. 相似文献