As important yield-related traits,thousand-grain weight(TGW),grain number per spike(GNS)and grain weight per spike(GWS)are crucial components of wheat production.To dissect their underlying genetic basis,a double hapl...As important yield-related traits,thousand-grain weight(TGW),grain number per spike(GNS)and grain weight per spike(GWS)are crucial components of wheat production.To dissect their underlying genetic basis,a double haploid(DH)population comprised of 198 lines derived from 8762/Keyi 5214 was constructed.We then used genechip to genotype the DH population and integrated the yield-related traits TGW,GNS and GWS for QTL mapping.Finally,we obtained a total of 18942 polymorphic SNP markers and identified 41 crucial QTLs for these traits.Three stable QTLs for TGW were identified on chromosomes 2D(QTgw-2D.3 and QTgw-2D.4)and 6A(QTgw-6A.1),with additive alleles all from the parent 8762,explaining 4.81–18.67%of the phenotypic variations.Five stable QTLs for GNS on chromosomes 3D,5B,5D and 6A were identified.QGns-5D.1 was from parent 8762,while the other four QTLs were from parent Keyi 5214,explaining 5.89–7.08%of the GNS phenotypic variations.In addition,a stable GWS genetic locus QGws-4A.3 was detected from the parent 8762,which explained 6.08–6.14%of the phenotypic variations.To utilize the identified QTLs,we developed STARP markers for four important QTLs,Tgw2D.3-2,Tgw2D.4-1,Tgw6A.1 and Gns3D.1.Our results provide important basic resources and references for the identification and cloning of genes related to TGW,GNS and GWS in wheat.展开更多
解析小麦抗倒伏遗传机制,发掘抗倒伏位点,选育抗倒伏品种,对于保障我国粮食生产安全具有重要意义。周8425B是我国黄淮麦区重要的小麦骨干亲本,农艺性状优良,其衍生品种具有较好的抗倒伏特性。本研究对周8425B及其衍生品种等62份材料的8...解析小麦抗倒伏遗传机制,发掘抗倒伏位点,选育抗倒伏品种,对于保障我国粮食生产安全具有重要意义。周8425B是我国黄淮麦区重要的小麦骨干亲本,农艺性状优良,其衍生品种具有较好的抗倒伏特性。本研究对周8425B及其衍生品种等62份材料的8个抗倒伏相关性状进行评价,并结合50K SNP芯片数据进行全基因组关联分析(GWAS,genome-wide association analysis)。共计检测到226个显著关联SNP标记,分布于21条染色体的42个位点上,分别解释7.0%~18.8%的表型变异。其中,14个位点与已报道的位点一致,其他28个位点为新的位点。另外,还鉴定到3个候选基因(TraesCS5B01G555800、TraesCS3A01G496400和TraesCS6B01G225400),分别编码E3-泛素蛋白连接酶、纤维素合酶和细胞分裂蛋白酶。本研究对于小麦品种抗倒伏性状改良具有参考价值。展开更多
基金the Henan Modern Agricultural Industrial Technology System Construction,China(HARS-22-1-Z7)。
文摘As important yield-related traits,thousand-grain weight(TGW),grain number per spike(GNS)and grain weight per spike(GWS)are crucial components of wheat production.To dissect their underlying genetic basis,a double haploid(DH)population comprised of 198 lines derived from 8762/Keyi 5214 was constructed.We then used genechip to genotype the DH population and integrated the yield-related traits TGW,GNS and GWS for QTL mapping.Finally,we obtained a total of 18942 polymorphic SNP markers and identified 41 crucial QTLs for these traits.Three stable QTLs for TGW were identified on chromosomes 2D(QTgw-2D.3 and QTgw-2D.4)and 6A(QTgw-6A.1),with additive alleles all from the parent 8762,explaining 4.81–18.67%of the phenotypic variations.Five stable QTLs for GNS on chromosomes 3D,5B,5D and 6A were identified.QGns-5D.1 was from parent 8762,while the other four QTLs were from parent Keyi 5214,explaining 5.89–7.08%of the GNS phenotypic variations.In addition,a stable GWS genetic locus QGws-4A.3 was detected from the parent 8762,which explained 6.08–6.14%of the phenotypic variations.To utilize the identified QTLs,we developed STARP markers for four important QTLs,Tgw2D.3-2,Tgw2D.4-1,Tgw6A.1 and Gns3D.1.Our results provide important basic resources and references for the identification and cloning of genes related to TGW,GNS and GWS in wheat.
文摘解析小麦抗倒伏遗传机制,发掘抗倒伏位点,选育抗倒伏品种,对于保障我国粮食生产安全具有重要意义。周8425B是我国黄淮麦区重要的小麦骨干亲本,农艺性状优良,其衍生品种具有较好的抗倒伏特性。本研究对周8425B及其衍生品种等62份材料的8个抗倒伏相关性状进行评价,并结合50K SNP芯片数据进行全基因组关联分析(GWAS,genome-wide association analysis)。共计检测到226个显著关联SNP标记,分布于21条染色体的42个位点上,分别解释7.0%~18.8%的表型变异。其中,14个位点与已报道的位点一致,其他28个位点为新的位点。另外,还鉴定到3个候选基因(TraesCS5B01G555800、TraesCS3A01G496400和TraesCS6B01G225400),分别编码E3-泛素蛋白连接酶、纤维素合酶和细胞分裂蛋白酶。本研究对于小麦品种抗倒伏性状改良具有参考价值。
