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1.
Genetic linkage maps were constructed with amplified fragment length polymorphism (AFLP) and microsatellite markers for the pearl oyster, Pinctada martensii (Dunker), the main bivalve used for marine pearl production in Asia. Twenty‐four AFLP and 84 microsatellite primer pairs were used for linkage analysis in a full‐sib family with two parents and 78 offspring. Of the 2357 AFLP fragments generated, 394 (16.7%) were polymorphic and segregating. Most (340 or 86.2%) of the markers segregated according to expected Mendelian ratios. Female and male linkage maps were constructed using 230 and 189 markers, including 15 and 10 microsatellites respectively. The female map consisted of 110 markers in 15 linkage groups, covering 1415.9 cM, with an average interval of 14.9 cM. The male map consisted of 98 markers in 16 linkage groups, with a total length of 1323.2 cM and an average interval of 16.1 cM. When unlinked doublets were considered, genome coverages were 78.5% for the female and 73.5% for the male map. Although preliminary, the genetic maps constructed here should be useful for future linkage and quantitative trait loci mapping efforts.  相似文献   

2.
We constructed genetic linkage maps of the Japanese scallop Patinopecten yessoensis using AFLP and microsatellite markers. With 32 AFLP primer combinations, a total of 413 markers (209 from the female parent and 204 from the male parent) segregated in a 1:1 ratio, corresponding to DNA polymorphisms which were heterozygous in one parent and null in the other. Among the six microsatellite markers we used, there were four polymorphic loci. Two segregated in the female parent, and the other two segregated in both parents. In the maternal parent, 161 framework markers were mapped in 20 linkage groups, with a total coverage of 2198.8 cM. In the paternal parent, 166 framework markers established a map with 21 linkage groups, spanning a genome length of 2137.6 cM. The AFLP markers on the maps were randomly distributed with an average spacing between markers of 14.7–15.6 cM. The estimated coverage for the framework maps are 77.9% both for the female and the male. These are the first linkage maps for P. yessoensis, which constitute a basis for further genome studies and provide a useful framework for consensus map construction by adding orthologous anchor markers developed in P. yessoensis.  相似文献   

3.
Genetic linkage maps were constructed for bluegill sunfish, Lepomis macrochirus, using AFLP in a F1 inter-population hybrid family based on a double-pseudo testcross strategy. Sixty-four primer combinations produced 4,010 loci, of which 222 maternal loci and 216 paternal loci segregated at a 1:1 Mendelian ratio, respectively. The female and male framework maps consisted of 176 and 177 markers ordered into 31 and 33 genetic linkage groups, spanning 1628.2 and 1525.3 cM, with an average marker spacing of 10.71 and 10.59 cM, respectively. Genome coverage was estimated to be 69.5 and 69.3% for the female and male framework maps, respectively. On the maternal genetic linkage map, the maximum length and marker number of the linkage groups were 122.9 cM and 14, respectively. For the paternal map, the maximum length and marker number of the linkage groups were 345.3 cM and 19, respectively, which were much greater than those on the maternal genetic linkage map. The other genetic linkage map parameters of the paternal genetic linkage map were similar to those in the maternal genetic linkage map. For both the female and male maps, the number of linkage groups was greater than the haploid chromosome number of bluegill (2n = 48), indicating some linkage groups may distribute on the same chromosome. This genetic linkage mapping is the first step toward to the QTL mapping of traits important to cultured breeding in bluegill.  相似文献   

4.
This paper presents the genetic linkage map of the Chinese shrimp Penaeus (Fenneropenaeus) chinensis constructed with 472 AFLP markers. A hundred F1 progeny from an intercross between a female from the new variety “Yellow Sea No. 1” and wild caught male used for the mapping study. Two separate maps were constructed for each parent. The female linkage map consisted of 197 marker loci forming 35 linkage groups and spanned a total length of 2191.1 cM, with an average marker space of 13.5 cM. The male map consisted of 194 marker loci mapped to 36 linkage groups and spanned a total length of 1737.3 cM, with an average marker spacing of 11.0 cM. The level of segregation distortion observed in this study was 12.2%. The estimated genome length of P. chinensis was 3150.3 cM for the female and 2549.3 cM for the male, respectively. The observed genome coverage was 69.6% for the female and 68.1% for the male map. The linkage maps constructed in this study provide basic information for further linkage studies on Chinese shrimp, and more importantly, the construction of the maps are part of the work of the genetic breeding programs which will be used for growth discovered in the QTL analysis of P. chinensis.  相似文献   

5.
Zhikong scallop (Chlamys farreri Jones et Preston 1904) is one of the most important aquaculture species in China. The development of a genetic linkage map would provide a powerful tool for the genetic improvement of this species. Amplified fragment length polymorphism (AFLP) is a PCR‐based technique that has proven to be powerful in genome fingerprinting and mapping, and population analysis. Genetic maps of C. farreri were constructed using AFLP markers and a full‐sib family with 60 progeny. A total of 503 segregating AFLP markers were obtained, with 472 following the Mendelian segregation ratio of 1:1 and 31 markers showing significant (P<0.05) segregation distortion. The male map contained 166 informative AFLP markers in 23 linkage groups covering 2468 cM. The average distance between markers was 14.9 cM. The female genetic map consisted of 198 markers in 25 linkage groups spanning 3130 cM with an average inter‐marker spacing of 15.8 cM. DNA polymorphisms that segregated in a 3:1 ratio as well as the AFLP markers that were heterozygous in both parents were included to construct combined linkage genetic map. Five shared linkage groups, ranging from 61.1 to 162.5 cM, were identified between the male and female maps, covering 431 cM. Amplified fragment length polymorphism markers appeared to be evenly distributed within the linkage groups. Although preliminary, these maps provide a starting point for the mapping of the functional genes and quantitative trait loci in C. farreri.  相似文献   

6.
牙鲆遗传作图及生长性状QTL定位   总被引:3,自引:1,他引:2  
采用牙鲆日本群体和韩国群体杂交的92个F1个体作为分离群体, 利用微卫星标记和Joinmap 4.0作图软件构建了牙鲆遗传连锁图谱。共有221个SSR标记用于连锁图谱构建, 雌性图谱中, 共178个微卫星标记定位到22个连锁群上, 观测总长度为(G oa )599.0 cM, 覆盖率(C oa )达76.27%。雄性图谱中, 共194个微卫星标记定位到23个连锁群上, G oa 为693.4 cM, C oa 为78.82%。对全长、体质量、体高3组数据进行主成分分析处理, 得到可解释3个性状的89.6%特征的一组数据, 命名为牙鲆生长性状GT。用WinQTLCart 2.5软件的复合区间作图,在已构建的遗传连锁图谱上对牙鲆生长性状GT进行QTL定位, 取LOD经验值2.5为QTL存在的阈值; 对微卫星标记进行性状—标记之间的回归分析。本研究共定位3个与牙鲆生长性状GT相关的QTLs, qGT-f4 qGT-m20 qGT-f20,可解释表型变异率分别为27.60%, 13.74%, 10.27%。在性状—标记之间的回归分析中, 得到22个与生长性状GT相关(P<0.05)的微卫星标记, 单个标记可解释表型变异率介于3.70%~10.42%, 其中6个微卫星标记scaffold558_51720、scaffold558_26183、scaffold903_69232、scaffold485_47120 、scaffold1262_77386、scaffold809_65154与生长性状GT之间呈极显著相关(P><0.01), 可解释表型变异率分别为10.42%、7.31%、10.07%、10.07%、8.39%和11.26%。  相似文献   

7.
为了分析连锁群上不同位置的微卫星标记对鉴定牙鲆二倍体遗传特征的作用,实验以牙鲆选育基础群体为亲本,选择性腺发育良好的个体制备普通二倍体(ND),减数分裂雌核发育二倍体(MGD-1)、连续两代减数分裂雌核发育二倍体(MGD-2),并利用MGD-1发育达性成熟的雌鱼与同时诱导的性反转伪雄鱼交配制备近交二倍体(MGD1H)。从牙鲆遗传连锁图谱选择均匀分布于24个连锁群的72个微卫星标记,用4个MGD-1家系估计微卫星标记与着丝粒之间的相对距离。在假设无交叉干涉的情况下,17个标记位于着丝粒区域,19个标记位于连锁群中部,36个标记位于远着丝粒区域。分别选择上述区域的微卫星标记鉴定牙鲆4种二倍体的遗传特征。结果显示,4种二倍体的等位基因数(A)和多态信息含量(PIC)在不同区域变化范围较小,ND的A和PIC均为最高,MGD1H则表现为最低。随着标记与着丝粒之间距离的增加,4种二倍体的观测杂合度逐渐升高,纯合度逐渐降低。纯合个体比例在着丝粒区域最高,为8.8%~29.1%;在远着丝粒区域最低,为2.4%~23.2%。其中,MGD-1和MGD-2的变化幅度显著高于其余二倍体。结果表明,选择连锁群上不同位置的微卫星标记对鉴定牙鲆不同二倍体的遗传特征具有显著影响。  相似文献   

8.
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   

9.
The bay scallop (Argopecten irradians irradians Lamarck 1819) has become one of the most important aquaculture species in China. Genetic improvement of cultured bay scallop can benefit greatly from a better understanding of its genome. In this study, we developed amplified fragment length polymorphisms (AFLPs) and simple sequence repeat markers from expressed sequence tags (EST‐SSRs) for linkage analysis in bay scallop. Segregation of 390 AFLP and eight SSR markers was analysed in a mapping population of 97 progeny. Of the AFLP markers analysed, 326 segregated in the expected 1:1 Mendelian ratio, while the remaining 74 (or 19.0%) showed significant deviation, with 33 (44.6%) being deficient in heterozygotes (A/a). Among the eight polymorphic EST‐SSR loci, one marker (12.5%) was found skewing from its expected Mendelian ratios. Eighteen per cent of the markers segregating from female parent were distorted compared with 21% of the markers segregating from male parent. The female map included 147 markers in 17 linkage groups (LGs) and covered 1892.4 cM of the genome. In the male map, totally 146 AFLP and SSR markers were grouped in 18 LGs spanning 1937.1 cM. The average inter‐marker spacing in female and male map was 12.9 and 13.3 cM respectively. The AFLP and SSR markers were distributed evenly throughout the genome except for a few large gaps over 20 cM. Although preliminary, the genetic maps presented here provide a starting point for the mapping of the bay scallop genome.  相似文献   

10.
基于微卫星标记整合长牡蛎遗传图谱   总被引:2,自引:0,他引:2  
郭香  李琪  孔令锋  于红 《水产学报》2013,37(6):823-829
为了提高长牡蛎遗传图谱上的微卫星标记密度,实验采用6个家系图谱间的共有微卫星标记作为锚定标记,构建了长牡蛎的整合图谱.该整合图谱共有161个微卫星标记,覆盖10个连锁群,图谱长度和平均间距分别为615.4和3.8 cM.各连锁群的标记数介于10 ~ 24个之间,连锁群长度为47.3~73.3 cM,是目前密度最高的长牡蛎微卫星图谱.不同作图家系连锁群上的标记分组保持一致,但标记顺序出现差异,可能与长牡蛎自然群体中存在大量的染色体重排现象有关.结果表明,该图谱可以为今后长牡蛎的遗传育种研究提供新的遗传工具.  相似文献   

11.
Growth‐related traits are the main target of genetic breeding programmes in grouper aquaculture. We constructed genetic linkage maps for tiger grouper (Epinephelus fuscoguttatus) and giant grouper (E. lanceolatus) using 399 simple sequence repeat markers and performed a quantitative trait locus (QTL) analysis to identify the genomic regions responsible for growth‐related traits in F1 hybrid grouper (E. fuscoguttatus × E. lanceolatus). The tiger grouper (female) linkage map contained 330 markers assigned to 24 linkage groups (LGs) and spanned 1,202.0 cM. The giant grouper (male) linkage map contained 231 markers distributed in 24 LGs and spanned 953.7 cM. Six QTLs affecting growth‐related traits with 5% genome‐wide significance were detected on different LGs. Four QTLs were identified for total length and body weight on Efu_LG8, 10, 13 and 19 on the tiger grouper map, which explained 6.6%–12.0% of the phenotypic variance. An epistatic QTL with a reciprocal association was observed between Efu_LG8 and 10. Two QTLs were identified for body weight on Ela_LG3 and 10 on the giant grouper map, which explained 6.9% of the phenotypic variance. Two‐way analysis of variance indicated that the QTL on Efu_LG13 interacts with the QTLs on Ela_LG3 and 10 with large effects on body weight. Furthermore, these six QTLs showed different features among the winter, summer and rainy seasons, suggesting that environmental factors and fish age affected these QTLs. These findings will be useful to understand the genetic structure of growth and conduct genetic breeding in grouper species.  相似文献   

12.
鲤鱼的遗传连锁图谱(初报)   总被引:77,自引:15,他引:77       下载免费PDF全文
建立了鲤鱼的遗传连锁图谱。图谱有RAPD分子标记56个,鲤鱼的SSLP标记26个,鲤鱼SSLP标记19个,斑马鱼的SSLP分子标记70个,鲤鱼基因标记91个,共有标记262个;图谱有50个连锁组,连锁图给出鲤鱼的基因组大小在5789CM左右。  相似文献   

13.
黄颡鱼遗传图谱构建及生长相关性状的QTL定位   总被引:2,自引:0,他引:2  
以野生(♂)和人工养殖(♀)黄颡鱼杂交的100个F1个体为作图群体,用SSR、SRAP和TRAP3种DNA分子标记技术构建黄颡鱼的遗传连锁图谱。图谱整合了13个SSR标记,89个SRAP标记,26个TRAP标记。其中雌性框架图谱包括16个连锁群,图谱的长度为585.5cM;雄性框架图谱包括15个连锁群,图谱的长度为752.3cM;共享框架图谱包括5个连锁群,图谱的长度为231.3cM。用该连锁图谱对黄颡鱼的5个生长相关性状进行QTL扫描,在雌性图谱上检测到1个头宽的QTL,定位于第七连锁群上,LOD值为3.2,可解释的表型变异为13%。在雄性图谱上分别检测到1个体高和体长的QTL,均定位于第一连锁群上。体高QTL的LOD值为2.4,可解释的表型变异为12%。全长QTL的LOD值为2.1,可解释的表型变异为11%。3个QTL均可用于黄颡鱼的生长性状的标记辅助育种。  相似文献   

14.
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   

15.
牙鲆家系亲权鉴定的微卫星DNA标记分析   总被引:3,自引:1,他引:2  
刘永新  孙朝徽  王玉芬  刘奕  刘英杰 《水产学报》2015,39(11):1593-1603
为准确进行不同家系的亲权鉴定,筛选具有高亲本排除概率的微卫星DNA标记,从牙鲆选育基础群体中挑选性腺发育良好的雌雄亲本各10尾建立全同胞家系10个,从独立饲养的每个家系中随机选取30尾个体组成系谱结构已知的家系群体,从混合培育的子代群体中随机选取200尾个体组成系谱结构未知的混合群体。48个微卫星DNA标记选自牙鲆第二代遗传连锁图谱,且均匀分布于24个连锁群上,每个连锁群2个标记。家系群体的遗传分析结果发现,10个拥有丰富遗传多态性的微卫星DNA标记表现出高的亲本排除概率,其Excl1和Excl2的范围分别为0.655~0.719和0.792~0.837。随鉴定所用微卫星DNA标记数目的增加,累计排除概率逐步升高。当使用8个微卫星DNA标记鉴定时,累计排除概率达到100%。利用这些标记开展混合群体的亲权鉴定,显示共有13个雌雄个体参与繁殖过程,不同亲本配组产生的后代数量存在差异,亲本与后代群体之间的各项遗传学统计指标不存在明显差异。研究表明,筛选出具有高亲本排除概率的微卫星DNA标记能够有效进行牙鲆家系的亲权鉴定,可以作为今后开展家系选育与DNA分子标记联合育种的候选标记。  相似文献   

16.
为了克服单个家系数量性状位点(QTL)检测效率低、假阳性高等缺点,实验利用250对微卫星(SSR)标记对镜鲤8个全同胞家系的522尾子代进行基因组扫描,采用半同胞家系的分析策略对镜鲤体长(SL)和体质量(BW)性状进行QTL分析。结果显示,基于父系的QTL分析,共检测到4个QTL区间,其中,3个体长的QTL中,1个为95%基因组水平(genome-wide)显著性,位于LG24,可解释表型变异率为20.3%;其余2个均为95%染色体水平(chromosome-wide)显著性,分别位于LG6和LG30,可解释表型变异率分别为11.9%和11.6%。1个体质量的QTL达到99%基因组水平,位于LG24,可解释表型变异率达到38.3%,且与体长QTL区间重叠。基于母系的QTL分析,共检测到8个QTL区间,其中,5个体长的QTL中,1个为99%染色体水平,位于LG8,可解释表型变异率为16.6%;其余4个均为95%染色体水平,分别位于LG24、LG30、LG31和LG45,可解释表型变异率为9.6%~14.2%,且位于LG24和LG30上的QTL为父母本共有;3个体质量的QTL均与体长QTL区间重叠,1个为95%染色体水平,位于LG24,其余2个均为99%染色体水平,位于LG30和LG45,可解释表型变异率分别为14.1%和13.6%。进一步分析发现,位于LG24上的体长和体质量QTL区间重叠且均为父母本共有,体质量的3个QTL均与体长QTL存在重叠区域且呈现成簇分布的特点。本研究结果不仅可以为鲤分子育种提供更可靠的标记,而且为家系和品种间QTL变异规律的探索提供基础数据。  相似文献   

17.
The swimming crab (Portunus trituberculatus) is an economically important species in Asian aquaculture. Implementing growth‐related traits of P. trituberculatus into genetic breeding programmes is an ongoing effort. We used a previously published genetic linkage map of P. trituberculatus, containing 55 simple sequence repeat (SSR) markers and 172 amplified fragment length polymorphism (AFLP) techniques to map quantitative trait loci (QTL) for growth‐related traits in a single full sibling F2 family. Ten growth‐related traits were measured for QTL mapping. Composite interval mapping identified 9 QTL on the female map and 16 on the male map. Individual QTL with additive effects explained 11–38% of the phenotypic variance for various traits using the female parent's map, and from 1% to 21% using the male parent's map. Two QTL explaining a large percentage of variation in body weight were detected on chromosome 17 on the female map, and on chromosome 16 on the male map, and contributed 38% and 18% of the phenotypic variance respectively. This is the first study to report the detection and positioning of major QTL affecting growth in a true crab species (Brachyura). The mapping of growth‐related QTL in this study raises the possibility of improving the growth of P. trituberculatus through marker‐assisted selection.  相似文献   

18.
利用992个微卫星标记检测了德国镜鲤(Cyprinus carpio)F1代190个个体基因组DNA进行基因型检测,共组成51个连锁群,覆盖基因组总长度为5138.2cM,标记间平均距离为5.19cM;利用软件MapQTL 6.0采用区间作图法对酸性磷酸酶性状进行数量性状基因座(QTL)定位分析。研究结果共检测到9个与酸性磷酸酶有关的QTLs,分布于8个连锁群。其中LG24连锁群LOD值最大(5.37),位于LG24连锁群,最大的可解释表型变异为13.8%。通过BLAST与斑马鱼进行序列比对,找到了与斑马鱼富含亮氨酸重复蛋白、横跨膜蛋白50a、ADP核糖化因子和细胞因子受体家族b8同源的分子标记。本研究结果对鲤鱼分子标记辅助育种和疾病调控具有重要应用价值。  相似文献   

19.
Japanese flounder, Paralichthys olivaceus, is an economically important marine fish species in Asia. A suite of 18 microsatellite markers chosen from published genetic linkage maps was used to carry out parentage assignments of 188 hatchery‐reared juveniles from a small number of breeders. The probabilities of exclusion for the 18 microsatellite markers were 0.604–0.913, and the effectiveness of combined probability of exclusion reached 100% when using the eight microsatellite markers with higher Excl 1 probabilities. The cultured and wild stocks (WSs) were differentiated in a release‐recapture population based on these markers. Of the 321 recaptured offspring, 28.34% were assigned to their parental pairs in our broodstock, whereas the remaining offspring could not be traced back to a possible sire or dam. Significant reduction in genetic diversity of the cultured stock (CS) had not been found compared with that of the WS. The results suggest that CSs released into the wild will not adversely affect the genetic structure of natural populations. Our results demonstrate that these markers provide an efficient tool for parentage assignments and genetic analysis of Japanese flounder.  相似文献   

20.
Pacific bluefin tuna (Thunnus orientalis) has high market value, but its wild populations have decreased in recent years. The broodstock of Pacific bluefin tuna that were hatched artificially and reared under aquaculture conditions is beginning to be used for production. The creation of broodstock with commercially valuable traits, such as rapid growth, is therefore of great interest. Genetic linkage map‐based identification of markers associated with quantitative trait loci (QTLs) facilitates marker‐assisted selection (MAS) breeding and allows efficient genetic improvement of broodstock. Single nucleotide polymorphism (SNP)‐based genetic linkage map construction using the genotyping‐by‐sequencing method can expand the number of mapped markers and help identify growth‐related QTLs. In this study, we constructed sex‐specific maps for 24 linkage groups consisting of 677 SNP and 651 microsatellite markers. The total lengths of 93 progenies in the mapping population followed normal distribution, with an average length of 9.4 mm. We performed composite interval mapping in the mapping population. QTL analysis revealed one significant QTL in LG10 on the female linkage map. The genetic linkage map—the second such map generated for Pacific bluefin tuna—and the growth‐related QTLs detected in this study will be useful for tuna aquaculture MAS programs.  相似文献   

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