Identification of ARF gene family and functional analysis of CqARF05 under drought and salt stress in quinoa
文献类型: 外文期刊
第一作者: Wang, Baoqiang
作者: Wang, Baoqiang;Zhu, Xiaolin;Song, Xinrong;Zhao, Ying;Yang, Delong;Wang, Wangtian;Wei, Xiaohong;Wei, Xiaohong;Wang, Baoqiang;Zhu, Xiaolin;Zhao, Ying;Yang, Delong;Wang, Wangtian;Wei, Xiaohong;Liu, Wenyu
作者机构:
关键词: Quinoa; Growth hormone response factor (ARF); Bioinformatics analysis; Phylogeny; Expression pattern analysis
期刊名称:SCIENTIFIC REPORTS ( 影响因子:3.9; 五年影响因子:4.3 )
ISSN: 2045-2322
年卷期: 2025 年 15 卷 1 期
页码:
收录情况: SCI
摘要: The ARF gene family is crucial for regulating plant growth, development, and responses to various signaling pathways. In this study, 26 quinoa ARF genes (CqARF01-CqARF26) were identified, with encoded proteins varying in length from 553 to 1092 amino acids, molecular weights from 60.66 to 111.71 kDa, and isoelectric points from 5.15 to 8.21. The proteins were found in either the nucleus (13 CqARFs) or cytoplasm (11 CqARFs). Phylogenetic analysis classified ARF proteins into five groups. All CqARFs contained seven conserved motifs (Motif1, Motif2, Motif4, Motif6, Motif8, Motif9, and Motif10), indicating conserved positions and functional similarities. Gene structure analysis showed that most CqARF genes had UTR regions at both ends, with similar structures within subgroups. Conserved sequence analysis revealed that motif composition within subgroups was relatively conserved. The presence of four classes of cis-regulatory elements in quinoa ARF genes suggests involvement in light, hormone, tissue-specific expression, and other responses. Expression analysis indicated that the most genes (CqARF05, CqARF07, CqARF15 and CqARF24) were highly expressed under drought and salt stress treatment. Overexpression of CqARF05 gene in Arabidopsis enhanced drought and salt resistance in transgenic lines. These findings provide valuable insights into the role of the ARF gene family.
分类号:
- 相关文献
作者其他论文 更多>>
-
Advances in plant response to low-temperature stress
作者:Yu, Mingzhai;Wei, Xiaohong;Yu, Mingzhai;Luobu, Zhaxi;Zhuoga, Deqing;Tang, Yawei;Yu, Mingzhai;Luobu, Zhaxi;Zhuoga, Deqing;Tang, Yawei
关键词:Low-temperature stress; Physiological responses; Phytohormones; Transcriptional regulation;
CBFs -
Characterization of the soybean ABF gene family and the key regulatory function of GmABF1 in salt stress response
作者:Zhang, Bin-shuo;Li, Ming-yang;Han, Jing-pei;Cheng, Zi-qian;Hu, Zhen-bang;Liu, Chun-yan;Yang, Ming-liang;Wu, Xiao-xia;Zhao, Ying;Song, Zhen;Chen, Xiang-jin;Han, De-zhi;Wu, Xiao-xia;Qiu, Li-juan
关键词:Soybean; ABF; Abiotic stress; Transgenic plants
-
Joint linkage and association analysis identifies genomic regions and candidate genes for yield-related traits in wheat
作者:Zhuang, Lei;Liu, Haixia;Liu, Hongxia;Zhang, Yinhui;Liu, Yunchuan;Hou, Jian;Li, Tian;Zhang, Xueyong;Hao, Chenyang;Du, Lifeng;Li, Huifang;Li, Huifang;Yang, Delong
关键词:Wheat; Yield-related traits; 660 K SNP array; QTL mapping; KASP
-
Physiological and broadly targeted metabolomic analyses of barley (Hordeum vulgare L.) in response to low-temperature stress
作者:Yu, Mingzhai;Wei, Xiaohong;Yu, Mingzhai;Luobu, Zhaxi;Zhuoga, Deqing;Tang, Yawei;Yu, Mingzhai;Luobu, Zhaxi;Zhuoga, Deqing;Tang, Yawei;Wei, Xiaohong
关键词:Low-temperature; Barley; Physiology; Metabolome
-
A 14-bp motif in the KIT active promoter region is critical for melanin accumulation in yaks, mice, and humans
作者:Liu, Xinfeng;Wang, Tongcheng;Zheng, Zeyu;Dong, Congcong;Liu, Wenyu;Niu, Zhimin;Yang, Yingbo;Qiu, Qiang;Yang, Yongzhi;Li, Kexin;Kang, Minghui;Li, Bowen;Liu, Jianquan;Liu, Xinfeng;Yang, Yingbo;Fang, Lingzhao;Wu, Xiaoyun;Yan, Ping;Lenstra, Johannes A.
关键词:All-white yaks; KIT gene; 14-bp motif; Gene editing; Melanin
-
Nitrogen and Gray Water Footprints of Various Cropping Systems in Irrigation Districts: A Case from Ningxia, China
作者:Liu, Huan;Zhang, Tianpeng;Du, Xinzhong;Wu, Shuxia;Liu, Hongbin;Liu, Xiaotong;Zhao, Ying;Luo, Jiafa;Qiu, Weiwen
关键词:irrigated areas; life cycle; nitrogen footprint; gray water footprint; LMDI; gray correlation analysis
-
Investigation of the oxidation rules and oxidative stability of seabuckthorn fruit oil during storage based on lipidomics and metabolomics
作者:Li, Yazhuan;Wan, Yilai;Wang, Jing;Zhang, Xu;Leng, Yuanyuan;Liu, Wenyu;Wei, Changqing;Li, Yazhuan;Wan, Yilai;Wang, Jing;Zhang, Xu;Leng, Yuanyuan;Liu, Wenyu;Wei, Changqing;Li, Yazhuan;Wan, Yilai;Wang, Jing;Zhang, Xu;Leng, Yuanyuan;Liu, Wenyu;Wei, Changqing;Wang, Ting
关键词:Seabuckthorn fruit oil; Lipidomics; Metabolomics; Oxidation mechanism; Bioinformatics analysis
