Molecular Mechanism of Gibberellins in Mesocotyl Elongation Response to Deep-Sowing Stress in Sweet Maize
文献类型: 外文期刊
作者: Leng, Bingying 1 ; Li, Ming 1 ; Mu, Chunhua 1 ; Yan, Zhenwei 1 ; Yao, Guoqi 1 ; Kong, Xiangpei 3 ; Ma, Changle 2 ; Zhang, Fajun 1 ; Liu, Xia 1 ;
作者机构: 1.Shandong Acad Agr Sci, Maize Res Inst, Jinan 250100, Peoples R China
2.Shandong Normal Univ, Coll Life Sci, Jinan 250014, Peoples R China
3.Shandong Univ, Coll Life Sci, Jinan 250100, Peoples R China
关键词: sweet maize; deep-sowing; gibberellins; mesocotyls; GA20ox
期刊名称:CURRENT ISSUES IN MOLECULAR BIOLOGY ( 影响因子:3.1; 五年影响因子:3.3 )
ISSN: 1467-3037
年卷期: 2023 年 45 卷 1 期
页码:
收录情况: SCI
摘要: Uneven germination is still a common problem in sweet maize planting. The mesocotyl is a key driver for ground-breaking sweet maize, and deep-sowing has a longer mesocotyl. However, the physiological and molecular mechanisms of sweet maize mesocotyl elongation in response to deep-sowing remain unknown. Here we found that sweet maize inbred line Ltx05 could obtain longer mesocotyls in deep soil of 10 cm depth, and that 20 mg/L GA(3) was the optimal concentration to promote mesocotyl elongation and seedling emergence. Microstructure observation showed that the longitudinal cell length of mesocotyl at 10 cm sowing depth was significantly longer than that of 1 cm. Transcriptome analysis showed that microtubule process related differentially expressed genes may contribute to the longitudinal cell elongation. The content of GAs in the mesocotyl at 10 cm sowing depth was markedly higher than that of 1 cm. Combining transcriptome data and qRT-PCR at different developmental stages, ZmGA20ox1, ZmGA20ox4 and ZmGA20ox5 were identified as three positive regulation candidate genes during mesocotyl elongation under deep-sowing conditions, and this was further confirmed by the significant elongation of the hypocotyl in heterologous transformation of Arabidopsis thaliana. These results lay a foundation for improving the ability of sweet maize to tolerate deep-sowing stress and improving the breeding of excellent deep-sowing-tolerant germplasms.
- 相关文献
作者其他论文 更多>>
-
Transcriptional networks orchestrating red and pink testa color in peanut
作者:Ahmad, Naveed;Zhang, Kun;Ma, Jing;Zhao, Shuzhen;Pan, Jiaowen;Li, Changsheng;Wang, Xingjun;Li, Aiqin;Zhao, Chuanzhi;Ahmad, Naveed;Zhang, Kun;Ma, Jing;Zhao, Shuzhen;Pan, Jiaowen;Li, Changsheng;Wang, Xingjun;Li, Aiqin;Zhao, Chuanzhi;Ahmad, Naveed;Zhang, Kun;Ma, Jing;Ma, Changle;Wang, Xingjun;Zhao, Chuanzhi;Yuan, Mei;Wang, Mingqing;Deng, Li;Ren, Li;Gangurde, Sunil S.;Guo, Baozhu;Gangurde, Sunil S.;Guo, Baozhu
关键词:Peanut; Testa color; Anthocyanin biosynthesis; flavonoids; Bulk RNA-seq (BR-seq); Transcription factors
-
A transcription factor ZmGLK36 confers broad resistance to maize rough dwarf disease in cereal crops
作者:Xu, Zhennan;Zhou, Zhiqiang;Cheng, Zixiang;Wang, Feifei;Li, Mingshun;Li, Gongjian;Li, Wenxue;Du, Qingguo;Wang, Ke;Lu, Xin;Tai, Yuxin;Chen, Runyi;Hao, Zhuanfang;Han, Jienan;Yong, Hongjun;Zhang, Degui;Weng, Jianfeng;Li, Xinhai;Zhou, Yu;Wang, Zhenhua;Chen, Yanping;Meng, Qingchang;Kong, Xiaomin;Tie, Shuanggui;Mu, Chunhua;Song, Weibin;Wang, Haiyang
关键词:
-
Isolation, characterization and genomic analysis of a novel phage IME178 with lytic activity against Escherichia coli
作者:Li, Fei;Na, Shi;Zhang, Deqing;Li, Lu;Zhao, Jian;Liu, Fei;Liu, Pengfei;Li, Yuexiu;Li, Ming;Lei, Ming;Nazir, Amina;Wang, Guojun
关键词:Phage; Multi -drug resistance; Escherichia coli; Demerecviridae; Nosocomial infections
-
Identification of genetic loci for grain yield-related traits in the wheat population Zhongmai 578/Jimai 22
作者:Liu, Dan;Zhao, De-hui;Zeng, Jian-qi;Shawai, Rabiu Sani;Tong, Jing-yang;Li, Ming;Li, Fa-ji;Xia, Xian-chun;Tian, Yu-bing;Wang, De-sen;He, Zhong-hu;Liu, Jin-dong;Zhang, Yong;Zhao, De-hui;Wang, Chun-ping;Shawai, Rabiu Sani;Li, Fa-ji;Zhou, Shuo;Hu, Wen-li;Zhu, Qian;He, Zhong-hu;Liu, Jin-dong
关键词:grain yield; KASP marker; QTL mapping; SNP chip
-
Overexpressing Ribosomal Protein L16D Affects Leaf Development but Confers Pathogen Resistance in Arabidopsis
作者:Li, Ke;Mu, Qian;Zhang, Qingtian;Liu, Huiping;Wang, Fengxia;Li, Ao;Ding, Tingting;Zhao, Hongjun;Wang, Pengfei;Yan, Zhenwei;Ding, Tingting;Wang, Pengfei
关键词:ribosomal protein; RPL16D; curled leaf; smaller cell size; immune response
-
A large deletion conferring pale green leaves of maize
作者:Yao, Guoqi;Zhang, Hua;Leng, Bingying;Cao, Bing;Shan, Juan;Yan, Zhenwei;Guan, Haiying;Cheng, Wen;Liu, Xia;Mu, Chunhua;Yao, Guoqi;Zhang, Hua;Leng, Bingying;Cao, Bing;Shan, Juan;Yan, Zhenwei;Guan, Haiying;Cheng, Wen;Liu, Xia;Mu, Chunhua;Yao, Guoqi;Zhang, Hua;Leng, Bingying;Cao, Bing;Shan, Juan;Yan, Zhenwei;Guan, Haiying;Cheng, Wen;Liu, Xia;Mu, Chunhua;Yao, Guoqi;Zhang, Hua;Leng, Bingying;Cao, Bing;Shan, Juan;Yan, Zhenwei;Guan, Haiying;Cheng, Wen;Liu, Xia;Mu, Chunhua;Liu, Xia
关键词:Maize; Pgl; Map based cloning; Large deletion
-
What controls the availability of organic and inorganic P sources in top- and subsoils? A 33P isotopic labeling study with root exudate addition
作者:Ai, Juanjuan;Liu, Xia;Ai, Juanjuan;Liu, Xia;Ai, Juanjuan;Banfield, Callum C.;Shao, Guodong;Shi, Lingling;Dippold, Michaela A.;Ai, Juanjuan;Stuerzebecher, Tobias;Dippold, Michaela A.;Zamanian, Kazem;Zamanian, Kazem;Fan, Lichao;Spielvogel, Sandra
关键词:Subsoil; Root exudates; Microbial biomass; 33 P labeling; Microbial community; Enzyme activity
