Genome-wide analysis and expression profiling of CalS genes in Glycine max revealed their role in development and salt stress
文献类型: 外文期刊
第一作者: Zaynab, Madiha
作者: Zaynab, Madiha;Zaynab, Madiha;Li, Shuangfei;Xu, Zhao-Shi;Yad, Hassan. A.;Hussain, Athar;Sharif, Yasir;Al-Yahyai, Rashid;Sadder, Monther;Aloufi, Abeer S.
作者机构:
关键词: Callose Synthase; Expression; Growth; Regulation; qRT-PCR; Salt
期刊名称:JOURNAL OF KING SAUD UNIVERSITY SCIENCE ( 影响因子:3.8; 五年影响因子:3.9 )
ISSN: 1018-3647
年卷期: 2024 年 36 卷 2 期
页码:
收录情况: SCI
摘要: Abiotic stress affects plants' growth and development. Soybean is an important crop of the world, however, its production is affected by abiotic stresses. Callose Synthase is the most crucial enzyme response to environmental and developmental signals. However, in soybean, information on the callose synthase genes is limited. In this study, we analyzed the callose synthase gene family of soybean at the genome-wide scale. We also studied the genes positions, gene structure, evolutionary relations, miRNAs target sites, and expression of CalS genes. Resultantly 24 CalS genes were found in soybean, with diverse chromosomal locations, cis-acting elements, conserved motifs, and gene structures. Further, GmCalS genes were divided into four phylogenetic classes. The evolutionary classification of CalSs was supported by the motif and gene structure analyses. Phytohormones, abiotic stresses, and growth-responsive elements were identified in the promoter of GmCalSs. In addition, the GmCalS genes higher expression in roots, leaves, flowers, and nodules tissues provided their significance in development. Furthermore, the higher expression of GmCalS17 and GmCalS19 genes in response to salt stress indicated their importance against salt stress. These findings will be helpful for further investigation of the CalS genes in other crops.
分类号:
- 相关文献
作者其他论文 更多>>
-
Soybean steroids improve crop abiotic stress tolerance and increase yield
作者:Yu, Tai-Fei;Hou, Ze-Hao;Zheng, Lei;Wei, Ji-Tong;Lu, Zhi-Wei;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Sun, Su-Li;Jiang, Qi-Yan;Jin, Long-Guo;Ma, You-Zhi;Xu, Zhao-Shi;Wang, Hai-Long;Chang, Shi-Yang;Song, Xin-Yuan;Zheng, Wei-Jun;Jiang, Qi-Yan;Ma, You-Zhi;Xu, Zhao-Shi;Xu, Zhao-Shi
关键词:soybean (Glycine max); plant steroid hormone; abiotic stress; regulated mechanism; squalene monooxygenase
-
Molecular Cloning and Functional Identification of a Pericarp- and Testa-Abundant Gene's (AhN8DT-2) Promoter from Arachis hypogaea
作者:Sharif, Yasir;Zhuang, Yuhui;Xie, Wenpin;Zhang, Chong;Chen, Kun;Deng, Ye;Chen, Yuting;Fu, Huiwen;Wang, Lihui;Chen, Xiangyu;Zhuang, Weijian;Chen, Hua;Sharif, Yasir;Zhuang, Yuhui;Chen, Kun;Fu, Huiwen;Wang, Lihui;Chen, Xiangyu
关键词:abiotic stress; aflatoxins; constitutive promoter; genome-wide; tissue-specific promoter
-
TaMYB-CC5 gene specifically expressed in root improve tolerance of phosphorus deficiency and drought stress in wheat
作者:Kong, Ya-Nan;Yan, Xue-Chun;Liu, Yuan-Xia;Wang, Xin-Rui;Lan, Jin-Hao;Zheng, Lei;Kong, Ya-Nan;Wang, Xin-Rui;Zhang, Jin-Peng;Wang, Chao;Hou, Ze-Hao;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Ma, You-Zhi;Xu, Zhao-Shi;Qi, Xue-Li;Cao, Xin-You;Zhang, Shuang-Xi;Liu, Yong-Wei;Zheng, Jia-Cheng;Xu, Zhao-Shi
关键词:MYB-CC transcription factor; Phosphorus deficiency; Drought; Root; ZIFLs genes
-
Heat shock protein TaHSP17.4, a TaHOP interactor in wheat, improves plant stress tolerance
作者:Wang, Yi-Xuan;Lan, Jin-Hao;Wang, Yi-Xuan;Yu, Tai-Fei;Wang, Chun-Xiao;Wei, Ji-Tong;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Ma, You-Zhi;Xu, Zhao-Shi;Yu, Tai-Fei;Li, Feng;Zhang, Shuang-Xi;Liu, Yong-Wei;Zheng, Jia-Cheng;Xu, Zhao-Shi
关键词:HSP family; Stress tolerance; Protein interaction; Molecular mechanism; Triticum aestivum L
-
Foxtail millet MYB-like transcription factor SiMYB16 confers salt tolerance in transgenic rice by regulating phenylpropane pathway
作者:Yu, Yue;Min, Dong-Hong;Cao, Tao;Zhang, Xiao-Hong;Yu, Yue;Guo, Dong-Dong;Jiang, Qi-Yan;Sun, Xian-Jun;Zhang, Hui;Tang, Wen-si;Zhou, Yong-Bin;Xu, Zhao-Shi;Chen, Jun;Ma, You-Zhi;Chen, Ming;Ning, Lei;Gao, Shi-Qing
关键词:Foxtail millet; Salt stress; MYB-Like transcription factor; Phenylpropane pathway; Transcriptome analysis
-
Genome-Wide Analysis and Expression Profiling of DUF668 Genes in Glycine max under Salt Stress
作者:Zaynab, Madiha;Zaynab, Madiha;Li, Shuangfei;Sharif, Yasir;Xu, Zhaoshi;Fiaz, Sajid;Al-Yahyai, Rashid;Yadikar, Hamad. A.;Al Kashgry, Najla Amin T.;Qari, Sameer H.;Sadder, Monther
关键词:phytohormones; miRNAs; gene expression; abiotic stress; phylogeny; duplication
-
In-silico identification and characterization of O-methyltransferase gene family in peanut (Arachis hypogaea L.) reveals their putative roles in development and stress tolerance
作者:Cai, Tiecheng;Sharif, Yasir;Yang, Qiang;Chen, Xiangyu;Chen, Yuting;Dang, Hao;Pan, Yijing;Raza, Ali;Zhang, Chong;Chen, Hua;Zhuang, Weijian;Zhuang, Yuhui;Chen, Xiangyu;Chen, Kun;Gao, Meijia
关键词:bioinformatics; environmental stress; functional annotation; gene duplication; micro-RNAs; peanut genomics; phylogenetic tree
