Identification, Characterization, and Expression Profiling of Oryza Sativa Betaine Aldehyde Dehydrogenase Genes Exposed to Realistic Environmental Contamination of Oxyfluorfen
文献类型: 外文期刊
第一作者: Wang, Yi Zhuo
作者: Wang, Yi Zhuo;Lu, Jun Jin;Shi, Xu Zhen;Qu, Ya Nan;Zeng, Li Qing;Liu, Xiao Liang;Cheng, Xi Ran;Chen, Zhao Jie;Wang, Yan Hui;Wang, Yan Hui;Chen, Zhao Jie
作者机构:
关键词: Betaine aldehyde dehydrogenase; Pesticide tolerance; Rice; Metabolism; Bioinformatics analysis
期刊名称:TROPICAL PLANT BIOLOGY ( 影响因子:1.4; 五年影响因子:1.7 )
ISSN: 1935-9756
年卷期: 2025 年 18 卷 1 期
页码:
收录情况: SCI
摘要: Betaine aldehyde dehydrogenase (BADH), a member of family 10 of the aldehyde dehydrogenase superfamily, catalyzes the second oxidation step in the biosynthesis of glycine betaine (GB), which participates in a variety of critical processes that help plants tolerate abiotic stress. Nevertheless, it is still unclear how BADH functions in rice under pesticide stress. To look at the roles that the rice BADH family plays when under pesticide stress, three BADH genes were identified in transcriptome datasets of GB + oxyfluorfen (OFF)-treated rice. Using sequence alignment and phylogenetic analysis, the two subfamilies of the BADH gene family (ALDH10 and ALDH22) among rice, Arabidopsis, soybean, wheat, maize, barley, and sorghum were found. An examination of chromosomal position revealed that segmental duplication had a role in the expansion of OsBADH genes, and that the rice BADH genes were irregularly distributed on 3 of the 12 rice chromosomes. In collinearity analyses, rice BADH genes exhibited collinearity with those of wheat, maize, barley, and sorghum. The genes also showed a variety of conserved domains, cis-elements, motif compositions, and gene architectures that made it possible for them to encode different biotic and abiotic stress response proteins. Compared to the effects of OFF alone, BADH activity in rice roots and shoots increased 1.50-fold and 1.81-fold, respectively, following treatment with GB and 0.15 mg/L OFF. Analysis of protein-protein interaction networks provided more evidence for the involvement of OsBADH proteins in OFF metabolism. These findings demonstrate that BADH genes respond effectively to OFF-induced stress by producing GB, highlighting their potential roles in regulating pesticide degradation.
分类号:
- 相关文献
作者其他论文 更多>>
-
Identification, characterization, and expression of Oryza sativa tryptophan decarboxylase genes associated with fluroxypyr-meptyl metabolism
作者:Wang, Hao Wen;Shi, Xu Zhen;Zhong, Xiao Yu;Zhou, Zhi Zhong;Lu, Dan;Liu, Xiao Liang;Chen, Zhao Jie;Ai, Gan;Wang, Yan Hui
关键词:
-
Identification, characterization, and expression profiling of α-tocopherol biosynthesis genes associated with anilofos metabolism in Oryza sativa
作者:Wang, Xiao Lu;He, Zhi Jiang;Zeng, Li Qing;Zeng, Ying Yu;Zhou, Zhi Zhong;Liu, Xiao Liang;Cheng, Xi Ran;Chen, Zhao Jie;Chen, He
关键词:
alpha -tocopherol synthetase; Anilofos; Rice; Metabolism; Bioinformatics analysis -
Insights into the synergistic effects of exogenous glycine betaine on the multiphase metabolism of oxyfluorfen in Oryza sativa for reducing environmental risks
作者:Chen, Zhao Jie;Shi, Xu Zhen;Qu, Ya Nan;Li, Si Ying;Wang, Yi Zhuo;Zeng, Li Qing;Liu, Xiao Liang;Li, Xuesheng;Wang, Yan Hui;Ai, Gan;Li, Xuesheng;Wang, Yan Hui
关键词:Osmoprotectants; Herbicides; Paddy crop; Degradation; Detoxification
-
Genome-wide characterization and expression of Oryza sativa AP2 transcription factor genes associated with the metabolism of mesotrione
作者:Chen, Zhao Jie;Shi, Xu Zhen;He, Zhi Hai;Qu, Ya Nan;Wang, Yi Zhuo;Yang, Hong;Ai, Gan;Wang, Yan Hui
关键词:AP2 transcription factor; Mesotrione; Rice; Bioinformatics analysis; Metabolism
-
Comprehensive analyses show the enhancement effect of exogenous melatonin on fluroxypyr-meptyl multiple phase metabolisms in Oryza sativa for reducing environmental risks
作者:Chen, Zhao Jie;Li, Si Ying;Qu, Ya Nan;Wang, Hao Wen;Lu, Dan;Liu, Xiao Liang;Ai, Gan;Wang, Yan Hui;Pan, Dong Jin
关键词:Melatonin; Fluroxypyr-meptyl; Rice; Transcriptomic analysis; Multiple metabolism
-
OsBR6ox, a member in the brassinosteroid synthetic pathway facilitates degradation of pesticides in rice through a specific DNA demethylation mechanism
作者:Qiao, Yuxin;Ma, Li Ya;Chen, Zhao Jie;Yang, Hong;Gu, Yucheng;Wang, Yujue;Ma, Li Ya
关键词:Brassinosteroids; Atrazine; Acetochlor; Metabolism; Epigenetic modification
