Homoeologous recombination-based transfer and cytological mapping of the novel powdery mildew resistance gene Pm7C from Aegilops caudata
文献类型: 外文期刊
第一作者: Zhang, Jinpeng
作者: Zhang, Jinpeng;Li, Huanhuan;Ren, Yueming;Luo, Mengzhen;Feng, Yajun;Chen, Qifan;Ma, Chao;Liu, Wenxuan;Guo, Fu;Liu, Qianwen;Amjad, Muhammad;Jia, Ranran;He, Xinpei;Ji, Xiang;Zhao, Yanlong;Kong, Weixiu;Guo, Mengqing;Tao, Luna;Yang, Zheng;Han, Kai;Zhao, Yue;Li, Huanhuan;Yin, Guihong;Sehgal, Sunish K.
作者机构:
期刊名称:THEORETICAL AND APPLIED GENETICS ( 影响因子:4.2; 五年影响因子:4.9 )
ISSN: 0040-5752
年卷期: 2025 年 138 卷 9 期
页码:
收录情况: SCI
摘要: Key messageA novel powdery mildew resistance gene Pm7C from Aegilops caudata was introgressed into common wheat through ph1b-induced homoeologous recombination and mapped to the 7CL bin FL 0.90-0.96 on chromosome 7C.AbstractWheat powdery mildew poses a significant threat to wheat grain yield and quality. Developing resistant wheat varieties through the deployment of resistance genes is the most effective, economically feasible, and environmentally sustainable strategy to combat this disease. Aegilops caudata (2n = 2x = 14, CC), a wild relative of common wheat, has been identified as a valuable genetic resource harboring novel resistance loci. Specifically, chromosome 7C of Ae. caudata carries a novel broad-spectrum resistance gene, tentatively designated as Pm7C. However, the structural variations in chromosome 7C, coupled with the unavailability of a reference genome for Ae. caudata, have hindered the introgression of this resistance gene into common wheat and its mapping. In this study, we report the development of wheat-Ae. caudata 7C recombinants via ph1b-induced homoeologous recombination and the cytological mapping of the resistance gene Pm7C. By integrating the analysis of 69 7C-specific markers with breakpoint mapping of 7C recombinants using in situ hybridization, we characterized 35 wheat-Ae. caudata 7C recombinants, categorizing them into 10 distinct types. This enabled the construction of a physical map of 7C, comprising nine chromosomal bins defined by 69 specific markers. Subsequent evaluation of powdery mildew resistance in these recombinants mapped Pm7C to the long arm of 7C within the interval of FL 0.90-0.96. Additionally, terminal recombinant 7CT1 (T7DL.7DS-7CL) and intercalary recombinant 7CT4 (Ti7DL.7DS-7CL-7DS) were identified as containing small 7CL segments that harbor Pm7C. These resources are expected to facilitate wheat disease-resistant breeding and further efforts in cloning and elucidating the resistance mechanism of Pm7C.
分类号:
- 相关文献
作者其他论文 更多>>
-
Insights into the Metabolite Differentiation Mechanism Between Chinese Dry-Cured Fatty Ham and Lean Ham Through UPLC-MS/MS-Based Untargeted Metabolomics
作者:Xie, Ruoyu;Liu, Yaqiong;Wu, Xiaoli;Hu, Jun;Chen, Wenxuan;Zhao, Ke;Li, Huanhuan;Chen, Lihong;Zhang, Jin;Du, Hongying
关键词:fatty ham; lean ham; Chinese dry-cured ham; untargeted metabolomics; UPLC-MS/MS; differential metabolite
-
Impacts of continuous potato cropping on soil microbial assembly processes and spread of potato common scab
作者:Wang, Lichun;Tian, Guokui;Pan, Yang;Wang, Haiyan;Qiu, Guangwei;Li, Fengyun;Pang, Ze;Ding, Kaixin;Zhang, Jinpeng;Xue, Hong;Liu, Song;Li, Xinyuan;Fu, Xuepeng;Wang, Lichun;Tian, Guokui;Pan, Yang;Wang, Haiyan;Qiu, Guangwei;Li, Fengyun;Pang, Ze;Ding, Kaixin;Zhang, Jinpeng;Xue, Hong;Liu, Song;Wang, Guanghua
关键词:Microbial community assembly processes; Continuous cropping; Soil microbiome; Potato common scab
-
GmWRKY33a is a hub gene responsive to brassinosteroid signaling that suppresses nodulation in soybean (Glycine max)
作者:Yang, Mingliang;Lei, Chengjun;Ma, Chao;Hou, Xiuming;Yao, Mingming;Mi, Liang;Wang, Shukun;Liu, Chunyan;Chen, Qingshan;Xin, Dawei;Xu, Chang;Wang, Jinhui;Yang, Mingliang;Lei, Chengjun;Ma, Chao;Hou, Xiuming;Yao, Mingming;Mi, Liang;Wang, Shukun;Liu, Chunyan;Chen, Qingshan;Xin, Dawei;Xu, Chang;Wang, Jinhui;Liu, Enliang;Xu, Linli
关键词:soybean; symbiosis; brassinosteroids (BRs); RNA-Seq; WGCNA; GmWRKY33a
-
Response of Crop Yield and Productivity Contribution Rate to Long-Term Different Fertilization in Northeast of China
作者:Ma, Xingzhu;Ma, Xingzhu;Hao, Xiaoyu;Zhao, Yue;Ji, Jinghong;Liu, Shuangquan;Zheng, Yu;Sun, Lei;Zhou, Baoku;Ma, Xingzhu;Hao, Xiaoyu;Zhao, Yue;Zheng, Yu;Ma, Xingzhu;Hao, Xiaoyu;Zhao, Yue;Ji, Jinghong;Liu, Shuangquan;Zheng, Yu;Peng, Xinhua
关键词:black soil; long-term fertilization; yield sustainability; rotatioin; contribution rate of productivity
-
Single-cell transcriptome atlas of lamprey exploring Natterin- induced white adipose tissue browning
作者:Pang, Yue;Du, Zeyu;Zhang, Jin;Lu, Jiali;Li, Jun;Dong, Xinrui;Zhao, Zhisheng;Chuan, Shunqin;Sun, Mingjie;Li, Qingwei;Pang, Yue;Du, Zeyu;Zhang, Jin;Lu, Jiali;Li, Jun;Dong, Xinrui;Zhao, Zhisheng;Chuan, Shunqin;Sun, Mingjie;Li, Qingwei;Qin, Yating;Liu, Qun;Han, Kai;Yuan, Zengbao;Pan, Shanshan;Xu, Mengyang;Wang, Dantong;Li, Zhen;Chen, Yadong;Song, Yue;Zhan, Liping;Cui, Wei;Wang, Jun;Fan, Guangyi;Qin, Yating;Liu, Qun;Han, Kai;Fan, Guangyi;Qin, Yating;Liu, Qun;Han, Kai;Song, Yue;Qin, Yating;Fan, Guangyi;Yuan, Zengbao;Xu, Mengyang;Wang, Dantong;Gu, Ying;Yang, Huanming;Xu, Xun;Liu, Xin;Fan, Guangyi;Xu, Mengyang;Fan, Guangyi;Li, Shuo;Zhang, Zhe;Ni, Ming;Jia, Xiaodong;Xia, Zhangyong;Yue, Zhen;Fan, Guangyi;Gu, Ying;Yang, Huanming;Xu, Xun;Liu, Xin
关键词:
-
Metabolomics and sensory evaluation combined analysis reveal the effect of processing methods and different forms on the flavor of rose herbal tea
作者:Zhao, Yue;Dong, Chunwang;Peng, Qunhua;Lin, Zhi;Shi, Jiang;Chang, Lu;Wang, Zhe
关键词:
-
Coenzyme Q GhCoQ9 enhanced the salt resistance by preserving the homeostasis of mitochondrial in upland cotton
作者:Xu, Nan;Zhong, Yike;Chen, Zhuona;Zhang, Doudou;Han, Xu;Wei, Renhui;Wang, Panpan;Li, Xinru;Gong, Juwu;Li, Yang;Yan, Haoliang;Yuan, Youlu;Shang, Haihong;Xu, Nan;Zhong, Yike;Zhang, Yuanming;Yuan, Youlu;Shang, Haihong;Chen, Zhuona;Zhang, Doudou;Han, Xu;Wang, Panpan;Li, Xinru;Zhao, Yanpeng;Li, Gangling;Yang, Zheng;Yuan, Youlu;Shang, Haihong;Gao, Xu
关键词:Cotton; CoQ; GhCoQ9; Salt stress; Ultrastructure
