Genome-wide identification and transcriptional characterization of DNA methyltransferases conferring temperature-sensitive male sterility in wheat
文献类型: 外文期刊
作者: Li, Dan 2 ; Feng, Bian-E 1 ; Liu, Yong-Jie 2 ; Gong, Jie 2 ; Tang, Yi-Miao 2 ; Zhang, Li-Ping 2 ; Pang, Bin-Shuang 2 ; Su 1 ;
作者机构: 1.Shanxi Agr Univ, Taigu 030800, Peoples R China
2.Beijing Acad Agr & Forestry Sci, Beijing Engn Res Ctr Hybrid Wheat, Municipal Key Lab Mol Genet Hybrid Wheat, Beijing 100097, Peoples R China
关键词: Triticum aestivum L; Temperature-sensitive genic male sterility (TGMS); Stress response; DNA methyltransferases; Transcript abundance
期刊名称:BMC GENOMICS ( 影响因子:3.969; 五年影响因子:4.478 )
ISSN: 1471-2164
年卷期: 2021 年 22 卷 1 期
页码:
收录情况: SCI
摘要: Background DNA methyltransferase (DMT) genes contribute to plant stress responses and development by de novo establishment and subsequent maintenance of DNA methylation during replication. The photoperiod and/or temperature-sensitive genic male sterile (P/TGMS) lines play an important role in hybrid seed production of wheat. However, only a few studies have reported on the effect of DMT genes on temperature-sensitive male sterility of wheat. Although DMT genes have been investigated in some plant species, the identification and analysis of DMT genes in wheat (Triticum aestivum L.) based on genome-wide levels have not been reported. Results In this study, a detailed overview of phylogeny of 52 wheat DMT (TaDMT) genes was presented. Homoeolog retention for TaDMT genes was significantly above the average retention rate for whole-wheat genes, indicating the functional importance of many DMT homoeologs. We found that the strikingly high number of TaDMT genes resulted mainly from the significant expansion of the TaDRM subfamily. Intriguingly, all 5 paralogs belonged to the wheat DRM subfamily, and we speculated that tandem duplications might play a crucial role in the TaDRM subfamily expansion. Through the transcriptional analysis of TaDMT genes in a TGMS line BS366 and its hybrids with the other six fertile lines under sterile and fertile conditions, we concluded that TaCMT-D2, TaMET1-B1, and TaDRM-U6 might be involved in male sterility in BS366. Furthermore, a correlation analysis showed that TaMET1-B1 might negatively regulate the expression of TaRAFTIN1A, an important gene for pollen development, so we speculated regarding an epigenetic regulatory mechanism underlying the male sterility of BS366 via the interaction between TaMET1-B1 and TaRAFTIN1A. Conclusions Our findings presented a detailed phylogenic overview of the DMT genes and could provide novel insights into the effects of DMT genes on TGMS wheat.
- 相关文献
作者其他论文 更多>>
-
Determination of Free Glycidol and Total Free Monochloropropanediol in Fish and Krill Oil with Simple Aqueous Derivatization and High-Performance Liquid Chromatography-Tandem Mass Spectrometry
作者:Yang, Guangxin;Tang, Yunyu;Liu, Xiaoxia;Wang, Longlong;Shen, Xiaosheng;Kong, Cong;Fan, Chengqi;Liu, Xiaoxia;Wang, Longlong;Qin, Lixia;Li, Dan;Zhai, Wenlei;Fodjo, Essy Kouadio
关键词:monochloropropanediol; glycidol; p-(dimethylamino)phenol; krill oil; fish oil; demulsification
-
Characterization and evolutionary analysis of phosphate starvation response genes in wheat and other major gramineous plants
作者:Sun, Renwei;Gong, Jie;Zhang, Shengquan;Ma, Jinxiu;Zhang, Fengting;Liu, Yongjie;Liao, Xiangzheng;Sun, Hui;Pang, Binshuang;Zhao, Changping;Gao, Shiqing;Sun, Renwei;Gong, Jie;Du, Yinke;Ma, Jinxiu;Liu, Yongjie;Pang, Binshuang;Zhao, Changping;Gao, Shiqing;Du, Yinke;Zheng, Wei;Sun, Renwei
关键词:Phosphate starvation; Phylogeny; Protein-protein interaction
-
A mitochondrial pentatricopeptide repeat protein enhances cold tolerance by modulating mitochondrial superoxide in rice
作者:Zu, Xiaofeng;Luo, Lilan;Wang, Zhen;Gong, Jie;Yang, Chao;Deng, Xian;Song, Xianwei;Cao, Xiaofeng;Zu, Xiaofeng;Luo, Lilan;Wang, Zhen;Gong, Jie;Yang, Chao;Deng, Xian;Song, Xianwei;Cao, Xiaofeng;Gong, Jie;Wang, Yong;Xu, Chunhui;Tan, Bao-Cai;Qiao, Xinhua;Chen, Chang;Chen, Chang;Cao, Xiaofeng;Cao, Xiaofeng
关键词:
-
Emergence of Antifungal Resistant Subclades in the Global Predominant Phylogenetic Population of Candida albicans
作者:Gong, Jie;Xu, Juan;Zhang, Shu;Geng, Yuan-Yuan;Zhao, Fei;Lu, Xin;He, Li-Hua;Zhang, Jian-Zhong;Chen, Xin-Fei;Zhang, Han;Xu, Ying-Chun;Xiao, Meng;Chen, Xin-Fei;Zhang, Han;Xu, Ying-Chun;Xiao, Meng;Fan, Xin;Fan, Xin;Li, Ruo-Yu;Wan, Zhe;Li, Ruo-Yu;Wan, Zhe;Li, Ruo-Yu;Chen, Sharon C-A;Kong, Fanrong;Sun, Zi-Yong;Kang, Mei;Liao, Kang;Guo, Da-Wen;Hu, Zhi-Dong;Chu, Yun-Zhuo;Zhao, Hong-Mei;Zou, Gui-Ling;Shen, Chong;Shen, Chong;Wu, Wei-Wei;Wang, He;Liu, Gui-Ming
关键词:Candida albicans; phylogenetic population; azole-resistance; Erg11p; Tac1p; azole-nonsusceptibility
-
KASP genotyping and semi-quantitation of G275E mutation in the alpha 6 subunit of Thrips palmi nAChR gene conferring spinetoram resistance
作者:Wei, Shu-Jun;Shi, Pan;Shen, Xiu-Jing;Chen, Jin-Cui;Zhang, Yu-Jie;Cao, Li-Jun;Wei, Shu-Jun;Shi, Pan;Shi, Pan;Pang, Bin-Shuang;Liu, Li-Hua;Zhang, Ming-Ming;Hoffmann, Ary Anthony
关键词:pesticide resistance; KASP; molecular diagnostics; semi-quantification; thrips; spinetoram
-
A high-throughput KASP assay provides insights into the evolution of multiple resistant mutations in populations of the two-spotted spider mite Tetranychus urticae across China
作者:Wei, Shu-Jun;Shen, Xiu-Jing;Zhang, Yu-Jie;Chen, Jin-Cui;Cao, Li-Jun;Gong, Ya-Jun;Pang, Bin-Shuang;Wei, Shu-Jun;Shen, Xiu-Jing;Zhang, Yu-Jie;Chen, Jin-Cui;Cao, Li-Jun;Gong, Ya-Jun;Pang, Bin-Shuang;Wei, Shu-Jun;Wang, Shuai-Yu;Hoffmann, Ary Anthony
关键词:Tetranychus urticae; molecular diagnostics; target-site mutation; multiple resistance; pesticide
-
Investigation of bacterial and fungal population structure on environmental surfaces of three medical institutions during the COVID-19 pandemic
作者:Dai, Rongchen;Wu, Hanting;Ji, Conghua;Liu, Guiming;Shen, Linlai;Geng, Yuanyuan;Zhang, Shu;Zhou, Haijian;Jiang, Canran;Gong, Jie;Geng, Yuanyuan;Zhang, Shu;Jiang, Canran;Gong, Jie;Fan, Xin;Geng, Yuanyuan;Zhang, Shu;Jiang, Canran;Gong, Jie;Fan, Xin
关键词:microbiota; antibiotics; COVID-19; healthcare-associated infection; fungi
