Quantitative trait loci (QTL) controlling seed dormancy in rice were identified usingrecombinant inbred lines (RILs) population derived from the cross between a japonicavariety Kinmaze and an indica variety DV85. Seed...Quantitative trait loci (QTL) controlling seed dormancy in rice were identified usingrecombinant inbred lines (RILs) population derived from the cross between a japonicavariety Kinmaze and an indica variety DV85. Seeds of two parental cultivars and each RILwere harvested in 35d after heading. The germination percentage of these seeds at 30℃for 7 days were measured as the degree of seed dormancy. QTL analysis was performed withWindows QTL Cartographer 1.13a program by composite interval mapping. A total of four QTLfor seed dormancy were detected on chromosome 2 (two regions), 5 and 11, respectively.Phenotypic variation explained by each QTL ranged from 8.37 to 17.40%. Responses of suchloci to a dormancy-breaking treatment with dry heat were further detected. The resultsshowed that two alleles of qDOR-2-1 and qDOR-5 from DV85 as well as the allele of qDOR-11 from Kinmaze increased the seed dormancy, which seemed to be easily broken by dry heattreatment. Such loci of seed dormancy may be applied to rice genetic improvement. Theallele of qDOR-2-2 from DV85 increased the seed dormancy, which could not be broken bydry heat treatment.展开更多
为了解除小冠花(Coronilla varia L.)种子硬实,根据小冠花种子的基本特征设计了硬实种子破皮处理机。通过因素二次正交旋转回归试验,考察了破皮盘间隙、差转速、下破皮盘转速对硬实种子处理的影响,得出试验指标与影响因素的回归模型。...为了解除小冠花(Coronilla varia L.)种子硬实,根据小冠花种子的基本特征设计了硬实种子破皮处理机。通过因素二次正交旋转回归试验,考察了破皮盘间隙、差转速、下破皮盘转速对硬实种子处理的影响,得出试验指标与影响因素的回归模型。结果表明,破皮盘间隙和差转速对处理的影响极显著(p<0.01),下破皮盘转速对处理的影响显著(p<0.05);硬实种子处理的最佳工艺参数是破皮盘间隙为2mm,差转速为74r/min,下破皮盘转速为128r/min。研究结果为解除小冠花种子硬实提供了技术指导。展开更多
基金supported by the National Nature Science Foundation of Jiangsu Province,China(BK2003415)Jiangsu Province Tackle Key Problem Foundation(BE2001305).
文摘Quantitative trait loci (QTL) controlling seed dormancy in rice were identified usingrecombinant inbred lines (RILs) population derived from the cross between a japonicavariety Kinmaze and an indica variety DV85. Seeds of two parental cultivars and each RILwere harvested in 35d after heading. The germination percentage of these seeds at 30℃for 7 days were measured as the degree of seed dormancy. QTL analysis was performed withWindows QTL Cartographer 1.13a program by composite interval mapping. A total of four QTLfor seed dormancy were detected on chromosome 2 (two regions), 5 and 11, respectively.Phenotypic variation explained by each QTL ranged from 8.37 to 17.40%. Responses of suchloci to a dormancy-breaking treatment with dry heat were further detected. The resultsshowed that two alleles of qDOR-2-1 and qDOR-5 from DV85 as well as the allele of qDOR-11 from Kinmaze increased the seed dormancy, which seemed to be easily broken by dry heattreatment. Such loci of seed dormancy may be applied to rice genetic improvement. Theallele of qDOR-2-2 from DV85 increased the seed dormancy, which could not be broken bydry heat treatment.
文摘为了解除小冠花(Coronilla varia L.)种子硬实,根据小冠花种子的基本特征设计了硬实种子破皮处理机。通过因素二次正交旋转回归试验,考察了破皮盘间隙、差转速、下破皮盘转速对硬实种子处理的影响,得出试验指标与影响因素的回归模型。结果表明,破皮盘间隙和差转速对处理的影响极显著(p<0.01),下破皮盘转速对处理的影响显著(p<0.05);硬实种子处理的最佳工艺参数是破皮盘间隙为2mm,差转速为74r/min,下破皮盘转速为128r/min。研究结果为解除小冠花种子硬实提供了技术指导。