Genome-wide analysis elucidates the roles of GhHMA genes in different abiotic stresses and fiber development in upland cotton
文献类型: 外文期刊
第一作者: Wu, Cuicui
作者: Wu, Cuicui;Xiao, Shuiping;Zuo, Dongyun;Cheng, Hailiang;Zhang, Youping;Wang, Qiaolian;Lv, Limin;Song, Guoli;Wu, Cuicui;Xiao, Shuiping
作者机构:
关键词: Gossypium L.; GhHMAs Abiotic stress; Fiber development; Interaction protein; Function
期刊名称:PLANT PHYSIOLOGY AND BIOCHEMISTRY ( 影响因子:6.5; 五年影响因子:6.4 )
ISSN: 0981-9428
年卷期: 2023 年 194 卷
页码:
收录情况: SCI
摘要: The heavy metal-binding domain is involved in heavy metal transporting and plays a significant role in plant detoxification. However, the functions of HMAs are less well known in cotton. In this study, a total of 143 GhHMAs (heavy metal-binding domain) were detected by genome-wide identification in G. hirsutum L. All the GhHMAs were classified into four groups via phylogenetic analysis. The exon/intron structure and protein motifs indicated that each branch of the GhHMA genes was highly conserved. 212 paralogous GhHMA gene pairs were identified, and the segmental duplications were the main role to the expansion of GhHMAs. The Ka/Ks values suggested that the GhHMA gene family has undergone purifying selection during the long-term evolutionary process. GhHMA3 and GhHMA75 were located in the plasma membrane, while GhHMA26, GhHMA117 and GhHMA121 were located in the nucleus, respectively. Transcriptomic data and qRT-PCR showed that GhHMA26 exhibited different expression patterns in each tissue and during fiber development or under different abiotic stresses. Overexpressing GhHMA26 significantly promoted the elongation of leaf trichomes and also improved the tolerance to salt stress. Therefore, GhHMA26 may positively regulate fiber elongation and abiotic stress. Yeast two-hybrid assays indicated that GhHMA26 and GhHMA75 participated in multiple biological functions. Our results suggest some genes in the GhHMAs might be associated with fiber development and the abiotic stress response, which could promote further research involving functional analysis of GhHMA genes in cotton.
分类号:
- 相关文献
作者其他论文 更多>>
-
Genome-Wide Analysis Elucidates the Roles of GhTIR1/AFB Genes Reveals the Function of Gh_D08G0763 (GhTIR1) in Cold Stress in G. hirsutum
作者:Zhang, Xianliang;Ren, Xiang;Meng, Yongming;Gao, Qi;Zhang, Fei;Zhang, Xianliang;Meng, Yongming;Gao, Qi;Wu, Cuicui;Guo, Yutao;Guo, Jinggong;Wang, Yaping;Guo, Jinggong
关键词:G. hirsutum; TIR1/AFBs; cold stress
-
Strigolactone-induced degradation of SMXL7 and SMXL8 contributes to gibberellin- and auxin-mediated fiber cell elongation in cotton
作者:Sun, Yaru;Tian, Zailong;Zuo, Dongyun;Cheng, Hailiang;Wang, Qiaolian;Zhang, Youping;Lv, Limin;Song, Guoli;Tian, Zailong;Song, Guoli;Cheng, Hailiang;Song, Guoli
关键词:
-
GhHDZ76, a cotton HD-Zip transcription factor, involved in regulating the initiation and early elongation of cotton fiber development in G. hirsutum
作者:Wu, Cuicui;Ren, Wenbin;Shangguan, Xiaoxia;Li, Pengbo;Xiao, Shuiping;Zhang, Xianliang;Zuo, Dongyun;Cheng, Hailiang;Zhang, Youping;Wang, Qiaolian;Lv, Limin;Song, Guoli;Zhang, Xianliang;Li, Shuyan
关键词:Cotton; Fiber development; Interaction protein; Function; Regulation Mechanism
-
Fingerprint Finder: Identifying Genomic Fingerprint Sites in Cotton Cohorts for Genetic Analysis and Breeding Advancement
作者:Liu, Shang;Cheng, Hailiang;Zhang, Youping;He, Man;Zuo, Dongyun;Wang, Qiaolian;Lv, Limin;Song, Guoli;Liu, Shang;Lin, Zhongxv;Cheng, Hailiang;Song, Guoli
关键词:fingerprint; term frequency-inverse document frequency; cotton genomics; pedigree; geographical bias
-
From waste to eco-friendly biofilms: Harnessing cottonseed hull proanthocyanidins for sustainable solutions
作者:Xu, Shuangjiao;Cui, Jing;Dai, Congyang;Wei, Xi;Tian, Xinquan;Fang, Dan;Song, Guoli;Ma, Lei;Xu, Shuangjiao;Song, Guoli;Ma, Lei
关键词:Cottonseed hulls; Structural identification; Bioactive proanthocyanidins; Biodegradable films; Sustainable agriculture
-
GhUBC10-2 mediates GhGSTU17 degradation to regulate salt tolerance in cotton (Gossypium hirsutum)
作者:Sun, Yaru;Tian, Zailong;Zuo, Dongyun;Wang, Qiaolian;Song, Guoli;Tian, Zailong;Song, Guoli;Song, Guoli;Song, Guoli
关键词:GhWRKY13; salt stress; ubiquitination
-
Comparative Transcriptome Analysis Revealed Key Genes Regulating Gossypol Synthesis in Tetraploid Cultivated Cotton
作者:Kong, Linglei;Cheng, Hailiang;Zhang, Youping;Zuo, Dongyun;Lv, Limin;Wang, Qiaolian;Song, Guoli;Kong, Linglei;Li, Shaoqi;Qian, Yuyuan;Li, Junlan
关键词:tetraploid cultivated cotton; pigment gland; gossypol; transcriptome; WGCNA
