Genome-Wide Analysis of the Glucose-6-Phosphate Dehydrogenase Family in Soybean and Functional Identification of GmG6PDH2 Involvement in Salt Stress
文献类型: 外文期刊
第一作者: Zhao, Ying
作者: Zhao, Ying;Cui, Yifan;Huang, Shiyu;Yu, Jingyao;Wang, Xinyu;Xin, Dawei;Liu, Yonghui;Dai, Yuxin;Qi, Zhaoming;Chen, Qingshan;Li, Xin
作者机构:
关键词: glucose-6-phosphate dehydrogenase; expression; enzyme activity; salt stress; transgenic plants; soybean (Glycine max L; )
期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:5.753; 五年影响因子:6.612 )
ISSN: 1664-462X
年卷期: 2020 年 11 卷
页码:
收录情况: SCI
摘要: Glucose-6-phosphate dehydrogenase (G6PDH) is known as a critical enzyme responsible for nicotinamide adenine dinucleotide phosphate (NADPH) generation in the pentose phosphate pathway (PPP), and has an essential function in modulating redox homeostasis and stress responsiveness. In the present work, we characterized the nine members of the G6PDH gene family in soybean. Phylogenic analysis and transit peptide prediction showed that these soybean G6PDHs are divided into plastidic (P) and cytosolic (Cy) isoforms. The subcellular locations of five GmG6PDHs were further verified by confocal microscopy in Arabidopsis mesophyll protoplasts. The respective GmG6PDH genes had distinct expression patterns in various soybean tissues and at different times during seed development. Among them, the Cy-G6PDHs were strongly expressed in roots, developing seeds and nodules, while the transcripts of P-G6PDHs were mainly detected in green tissues. In addition, the activities and transcripts of GmG6PDHs were dramatically stimulated by different stress treatments, including salt, osmotic and alkali. Notably, the expression levels of a cytosolic isoform (GmG6PDH2) were extraordinarily high under salt stress and correlated well with the G6PDH enzyme activities, possibly implying a crucial factor for soybean responses to salinity. Enzymatic assay of recombinant GmG6PDH2 proteins expressed in Escherichia coli showed that the enzyme encoded by GmG6PDH2 had functional NADP(+)-dependent G6PDH activity. Further analysis indicated overexpression of GmG6PDH2 gene could significantly enhance the resistance of transgenic soybean to salt stress by coordinating with the redox states of ascorbic acid and glutathione pool to suppress reactive oxygen species generation. Together, these results indicate that GmG6PDH2 might be the major isoform for NADPH production in PPP, which is involved in the modulation of cellular AsA-GSH cycle to prevent the oxidative damage induced by high salinity.
分类号:
- 相关文献
作者其他论文 更多>>
-
Mutations in a Leucine-Rich Repeat Receptor-Like Kinase gene result in male sterility and reduction in the number and size of fruit warts in cucumber (Cucumis sativus L.)
作者:Zhang, Haiqiang;Luo, Yanjie;Zhen, Wenlong;Li, Xin;Liu, Mengying;Liu, Peng;Li, Yuhong;Zhang, Gaoyuan;Chen, Peng;Weng, Yiqun;Yue, Hongzhong
关键词:
-
Development of an automatic tubular chemiluminescence immunoassay using magnetic particles for the detection of antibodies against foot-and-mouth disease virus serotype A
作者:Li, Fengsong;Cui, Yan;Li, Fengsong;Bao, Yanfang;Jiang, Tao;Li, Taoshan;Zuo, Yili;Yang, Guang;Li, Xin;Lin, Mi;Jiang, Tao;Lin, Mi
关键词:Tubular chemiluminescence immunoassay; Automation; Foot-and-mouth disease virus serotype A; Antibody detection; Serum
-
GmWRKY33a is a hub gene responsive to brassinosteroid signaling that suppresses nodulation in soybean (Glycine max)
作者:Yang, Mingliang;Lei, Chengjun;Ma, Chao;Hou, Xiuming;Yao, Mingming;Mi, Liang;Wang, Shukun;Liu, Chunyan;Chen, Qingshan;Xin, Dawei;Xu, Chang;Wang, Jinhui;Yang, Mingliang;Lei, Chengjun;Ma, Chao;Hou, Xiuming;Yao, Mingming;Mi, Liang;Wang, Shukun;Liu, Chunyan;Chen, Qingshan;Xin, Dawei;Xu, Chang;Wang, Jinhui;Liu, Enliang;Xu, Linli
关键词:soybean; symbiosis; brassinosteroids (BRs); RNA-Seq; WGCNA; GmWRKY33a
-
Genome-Wide Identification and Expression Analysis Under Abiotic Stress of the Lipoxygenase Gene Family in Maize (Zea mays)
作者:Li, Sinan;Hou, Shuai;Sun, Yuanqing;Sun, Minghao;Sun, Yan;Li, Xin;Li, Yunlong;Wang, Luyao;Cai, Quan;Guo, Baitao;Zhang, Jianguo
关键词:maize; LOX; abiotic stress; gene family; expression analysis
-
Saponin content in medicinal plants in response to application of organic and inorganic fertilizers: a meta-analysis
作者:Lv, Junyan;Liu, Shouzan;Wang, Hongzhen;Yang, Feng;Shen, Qiong;Zhang, Hongbin;Ma, Guobiao;Bai, Yan;Lv, Junyan;Li, Xin;Zhang, Shaobo;Liu, Shouzan;Wang, Hongzhen;Yang, Feng;Shen, Qiong;Zhang, Hongbin;Ma, Guobiao;Bai, Yan;Hu, Chunli;Ding, Lan
关键词:fertilizers; meta-analysis; medicinal plant; saponins; bioactive compounds
-
Investigation of the Molecular Mechanism of Asthma in Meishan Pigs Using Multi-Omics Analysis
作者:Tu, Weilong;Wang, Hongyang;Zhang, Yingying;Huang, Ji;Diao, Yuduan;Zhou, Jieke;Tan, Yongsong;Li, Xin;Tu, Weilong;Wang, Hongyang;Zhang, Yingying;Huang, Ji;Diao, Yuduan;Zhou, Jieke;Tan, Yongsong;Tu, Weilong;Wang, Hongyang;Zhang, Yingying;Huang, Ji;Diao, Yuduan;Zhou, Jieke;Tan, Yongsong
关键词:Meishan pig; asthma; transcriptome; metabolome
-
Genome-Wide Identification of GmPIF Family and Regulatory Pathway Analysis of GmPIF3g in Different Temperature Environments
作者:Liang, Xuefeng;Zhao, Caitong;Cui, Jiayang;Chen, Qingshan;Yang, Mingliang;Jiang, Zhenfeng;Liu, Zhihua;Han, Dezhi
关键词:soybean; PIF; bioinformatics analysis; biofilm interference; interacting protein
