312 recombinant inbred lines (RILs) in F9 from a cross between a overwintering cold-tolerant germplasm resource Glutinous rice 89-1(Gr 89-1) and a cold-sensitive variety Shuhui 527 was used for quantitative trait ...312 recombinant inbred lines (RILs) in F9 from a cross between a overwintering cold-tolerant germplasm resource Glutinous rice 89-1(Gr 89-1) and a cold-sensitive variety Shuhui 527 was used for quantitative trait locus (QTL) analysis. The scores of percent ratooning germinability (PRG) and overwintering germinability (POG) were evaluated. The overwintering germination rate of axillary buds was scored to represent the overwintering germinability. Two significant QTLs (qPRG-4 and qPRG-7) on chromosomes 4 and 7 were detected and explained 8.3 and 7.2% of the total phenotypic variation, respectively. Three significant QTLs (qPOG-2, qPOG-3 and qPOG-7) were identified and mapped on chromosomes 2, 3, and 7, respectively. These QTLs contributed 9.6, 6.7, and 17.8% of phenotypic variations, respectively. A comparative analysis using SSR markers closely linked to the three QTLs for the overwintering revealed cold-tolerant individuals, which harbour the Glutinous rice 89-1 alleles at RM7110, RM250, RM418, and RM232, had a high percent overwintering germinability, while cold-sensitive individuals, which carry Shuhui 527 alleles at these loci, had a low percent overwintering germinability in the F2 population of Shuhui 527/Glutinous rice 89-1. This study demonstrated the utility of these SSR markers for selection of overwintering germinability genotypes.展开更多
The genetic diversity of 27 different Cervus nippon hortulorum was studied to provide theoretical evidence for their identification and utilization. The genomie DNA of 27 different Cereus nippon hortulorum were analyz...The genetic diversity of 27 different Cervus nippon hortulorum was studied to provide theoretical evidence for their identification and utilization. The genomie DNA of 27 different Cereus nippon hortulorum were analyzed by amplified fragment length polymorphism (AFLP). 11,443 bands associated with genetic polymorphism among total 15,169 bands were obtained with 9 kinds of primer pairs and restriction endonuclease EcoRI/Msel, percentage of polymorphie band was 78.43%, 1,271 polymorphic locus were shown per primer pair. The AFLP data showed that average genetic similarity was 0.7841 (0.6809-0.8648). 27 samples were classified into Group I and Group II with cluster analysis, and Group II was divided into five subgroups. The result of AFLP and cluster analysis concluded that there was high genetic variation, which associated with orientated artificial breed selection and breeding in the population. Genetic similarity of Group II-4 was the highest, more than 0.82, while genetic distance in this group was the shortest, from 0.1354 to 0.1563, which was coordinated with breeding record. All these showed that there was great genetic polymorphism among the deer population. The results laid the foundation for main quantitative trait locus (QTLs) of Cervus nippon hortulorum.展开更多
基金supported by the Rice Key Project of Chongqing,China (CSTC2011AB1076)the Foundation Project of Chongqing Education Commission (KJ110623)+1 种基金the Doctor Foundation of Chongqing Normal University,China (10LR028)the Plants Breeding Project of Chongqing,China (CSTC2010AA1033)
文摘312 recombinant inbred lines (RILs) in F9 from a cross between a overwintering cold-tolerant germplasm resource Glutinous rice 89-1(Gr 89-1) and a cold-sensitive variety Shuhui 527 was used for quantitative trait locus (QTL) analysis. The scores of percent ratooning germinability (PRG) and overwintering germinability (POG) were evaluated. The overwintering germination rate of axillary buds was scored to represent the overwintering germinability. Two significant QTLs (qPRG-4 and qPRG-7) on chromosomes 4 and 7 were detected and explained 8.3 and 7.2% of the total phenotypic variation, respectively. Three significant QTLs (qPOG-2, qPOG-3 and qPOG-7) were identified and mapped on chromosomes 2, 3, and 7, respectively. These QTLs contributed 9.6, 6.7, and 17.8% of phenotypic variations, respectively. A comparative analysis using SSR markers closely linked to the three QTLs for the overwintering revealed cold-tolerant individuals, which harbour the Glutinous rice 89-1 alleles at RM7110, RM250, RM418, and RM232, had a high percent overwintering germinability, while cold-sensitive individuals, which carry Shuhui 527 alleles at these loci, had a low percent overwintering germinability in the F2 population of Shuhui 527/Glutinous rice 89-1. This study demonstrated the utility of these SSR markers for selection of overwintering germinability genotypes.
文摘The genetic diversity of 27 different Cervus nippon hortulorum was studied to provide theoretical evidence for their identification and utilization. The genomie DNA of 27 different Cereus nippon hortulorum were analyzed by amplified fragment length polymorphism (AFLP). 11,443 bands associated with genetic polymorphism among total 15,169 bands were obtained with 9 kinds of primer pairs and restriction endonuclease EcoRI/Msel, percentage of polymorphie band was 78.43%, 1,271 polymorphic locus were shown per primer pair. The AFLP data showed that average genetic similarity was 0.7841 (0.6809-0.8648). 27 samples were classified into Group I and Group II with cluster analysis, and Group II was divided into five subgroups. The result of AFLP and cluster analysis concluded that there was high genetic variation, which associated with orientated artificial breed selection and breeding in the population. Genetic similarity of Group II-4 was the highest, more than 0.82, while genetic distance in this group was the shortest, from 0.1354 to 0.1563, which was coordinated with breeding record. All these showed that there was great genetic polymorphism among the deer population. The results laid the foundation for main quantitative trait locus (QTLs) of Cervus nippon hortulorum.
