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1.
镜鲤体质量和体长的QTL定位研究   总被引:2,自引:1,他引:1  
以镜鲤(Cyprinus carpio L.)全同胞家系为材料,用940对微卫星(SSR)标记进行基因组扫描,采用半同胞家系的分析策略对体质量(BW)和体长(SL)进行QTL定位分析。QTL检测显示:基于父系的QTL分析,共检测到8个QTL区间。5个与体质量相关的QTL区间中,1个QTL为95%基因组水平(genome-wide)显著性,位于LG26连锁群,其他4个QTL均为95%染色体水平(chromosome-wide)显著性;3个与体长相关的QTL区间与体质量的QTL区间重叠,其中,1个QTL为99%基因组水平显著性,其余2个QTL均为95%染色体水平显著性。基于母系的QTL分析,共检测到11个QTL区间。6个与体质量相关的QTL区间中,1个QTL为99%基因组水平显著性,位于LG26,2个QTL为99%染色体水平显著性,其余3个QTL均为95%染色体水平显著性;5个与体长相关的QTL中有4个与体质量QTL区间重叠,其中,1个QTL为99%基因组水平显著性,1个QTL为99%染色体水平显著性,其余3个QTL均为95%显著性染色体水平。结果表明,在LG26上,存在着与体质量和体长都显著相关的QTL区间,且均达到基因组显著性水平,最小置信区间为3 cM。此QTL结果可以应用于鲤鱼分子标记辅助育种。  相似文献   

2.
一种杂交鲤四种经济性状的QTL定位分析   总被引:1,自引:1,他引:0  
以柏氏鲤和荷包红鲤抗寒品系杂交F21个家系的92尾个体为材料,用300个微卫星(SSR)标记构建了遗传连锁图谱,其长度为2 471.7 cM,标记间平均间隔为10.75 cM,在此基础上对体长(SL)、体厚(BT)、体高(H)和体质量(W)进行QTL定位分析.共检测到17个QTL区间分布于6个连锁群.4个体长的QTL中,位于LG5、LG7和LG19的QTL为显著水平(P<0.05),位于LG32的QTL为极显著水平(P<0.01),可解释表型变异率为5.14%~10.2%;4个体厚的QTL中,位于LG11(两个QTL)和LG32上的QTL为显著水平(P<0.05),位于LG5的QTL达极显著水平(P<0.01),可解释表型变异率为6.42%~ 8.43%;6个体高的QTL中,LG5,LG10,LG11,LG19,LG32上的QTL为显著水平(P<0.05),LG7上达极显著水平(P<0.01),可解释表型变异率为5.92% ~ 8.95%;3个体质量的QTL中,位于LG5和LG7上的为显著水平(P<0.05),可解释表型变异率为5.55%和8.36%,LG32上达极显著水平(P<0.01),可解释表型变异率为6.44%.本研究采用了两个不同品系的杂交子代为作图群体,丰富了QTL研究群体的多样化,为今后不同鲤品系或品种间的QTL在全基因组水平上的比较和共性QTL的发掘等奠定基础,进而指导鲤分子育种.  相似文献   

3.
为挖掘镜鲤头长及头长体长比性状的主效QTL区间,实验利用368个SSR、336个SNP标记对镜鲤良种后代杂交F1群体的68个个体进行基因型检测,运用JoinMap 4.0软件包构建遗传连锁图谱。该图谱包含535个分子标记并被分配到50个连锁群上,覆盖基因组总长度为2 244.66 cM,标记间平均距离为4.63 cM。利用MapQTL 5.0(interval mapping,IM)区间作图法进行QTL检测。结果显示,共得到2个与头长相关的QTL区间,分别分布在LG21和LG42,可解释型变异分别为28.2%、32.6%;6个与头长体长比性状相关的QTL位于LG8、LG15、LG18、LG21、LG39、LG40,可解释表型变异范围是16.4%~49.3%。全部QTL区间中贡献率大于20%的主效QTL有7个,HL-21和HL-42是头长性状的主效区间;HBR-8、HBR-15、HBR-21、HBR-39和HBR-40是头长体长比性状的主效QTL区间。利用SPSS的一般线性模型(GLM)针对另一群体进行验证,结果表明HLJ692与镜鲤头长体长比显著相关。  相似文献   

4.
鲤头长、体厚、体高性状的QTL定位及遗传效应分析   总被引:2,自引:2,他引:0  
用174个SSR、41个EST、345个SNP标记对以镜鲤良种后代为祖父母本所培育的杂交F2群体的68个个体进行基因型检测,运用JoinMap4.0软件包构建遗传连锁图。利用MapQTL5.0区间作图法(interval mapping,IM)和多QTL区间定位法(MQM mapping,MQM)进行QTL检测,通过置换实验(1000次重复)确定连锁群显著性水平阈值。在对体高、头长、体厚的区间定位中,共检测到6个与体高性状相关的QTLs区间,分布在LG1(SNP1339-SNP1490)、LG10(HLJE469-SNP1491)、LG12(SNP0922-HLJ1316)、LG13(SNP0937-HLJ328)、LG25(SNP1041-HLJ594)、LG35(SNP1425-SNP0389)等6个连锁群上,解释表型变异范围为20.0%~43.3%。其中,SNP1339-SNP1490区间LOD值最大为3.64,解释表型变异35.4%。6个与头长相关的QTLs,分布在LG1(SNP1339-SNP1490)、LG12(HLJ071-HLJ336)、LG13(SNP0937-HLJ328)、LG24(SN...  相似文献   

5.
本研究以长牡蛎(Crassostrea gigas)F1全同胞家系为作图群体,在已构建的基于120个微卫星和66个SNP标记的长牡蛎性别平均连锁图谱上,利用PROC QTL 2.0软件对出肉率和壳形(壳宽和壳深)性状进行QTL定位分析。结果表明,共检测到13个相关的QTL,分布在3个连锁群上;其中,与出肉率相关的4个QTL定位在1号和3号连锁群上(LG1和LG3),表型解释率为0.25%~47.53%;与壳宽相关的3个QTL定位在10号连锁群上(LG10),表型解释率为0.71%~45.39%;与壳深相关的6个QTL也定位在LG10,表型解释率为3.37%~24.78%。根据QTL连锁群分析和性状相关性分析结果可以推测,出肉率与糖原含量性状以及壳宽与壳深性状分别具有相近的遗传特征,利用与相关性状共同关联的分子标记可以同时对出肉率与糖原含量性状、壳宽与壳深性状进行遗传改良。本研究结果为今后长牡蛎相关性状候选基因克隆和分子标记辅助育种提供了参考。  相似文献   

6.
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   

7.
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   

8.
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   

9.
福瑞鲤选育家系不同养殖阶段的生长差异分析   总被引:3,自引:0,他引:3  
为了进一步观察最佳线性无偏预测(best linear unbiased prediction,BLUP)家系选育方法在福瑞鲤(Cyprinus carpio)继代选育中的潜力,该研究测量了继续选育第2代家系群体不同养殖阶段的体质量和形态性状。结果表明,生长快速家系群福瑞鲤早期(4月龄)生长速度较慢,到后期则生长加快,其体质量增长表现出明显的优势。在体型方面,随着养殖时间的延长,福瑞鲤各选育家系群的体厚/体长增加,体高/体长降低,逐渐呈现其体型修长的特征;同时2个越冬期的成活率均达到了94%以上。结果表明通过BLUP家系选育对福瑞鲤长期选育是可行的。在此基础上,通过主成分分析发现,福瑞鲤生长性状第一主成分是体质量;对不同生长时期的体质量进行相关性分析,发现9月龄、14月龄、21月龄鱼的体质量与24月龄的相关系数均达到极显著水平(P0.01),分别为0.851、0.897和0.957。因此,在福瑞鲤继续选育过程中,进行早期个体选择值得尝试。  相似文献   

10.
牙鲆身体纵轴生长相关性状QTL定位   总被引:1,自引:1,他引:0  
以经紫外线灭活的真鲷(Pagrosomus major)精子作为异源精子,诱导牙鲆(Paralichthys olivaceus)卵子进行有丝分裂雌核发育,通过静水压方法获得165个双单倍体作为实验材料.测量牙鲆身体纵轴6个生长相关性状(体长、头长、背鳍基长、腹鳍基长、尾柄长和尾长),并用SPSS 19.0对其进行正态分布及相关性分析.运用MapQTL4.0中多座位QTL 模型(MQM)对控制6个性状的QTL进行定位及遗传效应分析.结果表明,所检测6个性状均符合正态分布,并且相互之间呈极显著相关(P<0.01).在全部24个连锁群上检测到22个控制相关性状的QTL,分布在10个连锁群上.其中与体长相关的QTL有4个,头长相关的QTL为3个,控制背鳍基长的QTL为4个,与腹鳍基长相关的QTL为3个,与尾柄长相关QTL 7个,控制尾长的QTL仅有1个.各QTLs的LOD 值在2.01~3.68之间,可解释3.7%~12.6%的表型变异.控制体长和尾长的 QTL存在共定位,控制体长的 QTL 还与控制背鳍基长及腹鳍基长的QTL存在共定位.本研究结果可为今后进一步辅助育种和改良性状提供参考.  相似文献   

11.
Growth rate is one of the important economic traits in aquaculture species that is influenced by quantitative trait loci (QTLs). Recently published complete genetic map of common carp (Cyprinus carpio) with 307 markers (including 109 SSR, 31 EST-SSR and 167 SNP markers) was used to determine the number and position of QTLs effecting body weight (BW) and growth rate. Ten-, 11- and 12-month-old individuals of common carp were measured, and seven QTLs were detected in three linkage groups (LG1, LG6 and LG20); three were significant QTLs (qBW2-6, qBW3-6 and qBW3-20, P < 0.001), and four were suggestive QTLs (qBW1-1, qBW1-6, qBW2-20 and qBW3-1, P < 0.01). The three significant QTLs related to BW2 and BW3 were in LG6 and LG20 and covered 18 and 41 cM, respectively. The explained variances of qBW2-6, qBW3-6 and qBW3-20 were 34.4, 32.1 and 33.4 %, respectively. The four suggestive QTLs affecting BW1, BW2 and BW3 were in LG1, LG6 and LG20 and had variances that ranged from 17.9 to 26.7 %. The similarity of the QTL intervals for BW1, BW2 and BW3 in LG6 suggested that these genes may affect growth continuously during the early stage of growth and may be important for growth. The identification of QTLs for growth rate and BW in C. carpio will lead to a better understanding of the factors that influence these traits at a genetic level and will promote the growth to higher production through marker-assisted breeding.  相似文献   

12.
Glycogen content and shell pigmentation are two important economic traits of the Pacific oyster Crassostrea gigas. The first set of quantitative trait loci (QTLs) controlling the two traits was determined in an F1 full-sib family based on a sex-averaged linkage map. The linkage map was constructed using 120 SSRs, and 66 expressed sequence tag-derived single nucleotide polymorphisms (EST–SNPs). Two QTLs were found to be associated with glycogen content, explaining 0.27–79.05 % of the phenotypic variation. One QTL on LG9 were found to be related to shell pigmentation, the paternal and maternal alleles explaining 6.75 and 17.44 % of the phenotypic variation. The relationship of glycogen content with left shell depth and QTL linkage group analysis suggests that left shell depth and volume might be used to assist in indirect selection for glycogen content. The constructed linkage map and determined QTLs can provide a tool for further genetic analysis of the traits and be potential for marker-assisted selection in C. gigas breeding.  相似文献   

13.
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   

14.
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   

15.
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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