The flavohemoglobin gene MoFHB1 is involved in the endurance against nitrosative stress in Magnaporthe oryzae
文献类型: 外文期刊
作者: Zhang, Zhen 1 ; Hao, Zhongna 1 ; Chai, Rongyao 1 ; Qiu, Haiping 1 ; Wang, Jiaoyu 1 ; Wang, Yanli 1 ; Sun, Guochang 1 ;
作者机构: 1.Zhejiang Acad Agr Sci, State Key Lab Managing Biot & Chem Threats Qual &, 198 Shiqiao Rd, Hangzhou 310021, Peoples R China
关键词: Magnaporthe oryzae; flavohemoglobin; NO degradation
期刊名称:FEMS MICROBIOLOGY LETTERS ( 影响因子:2.82; 五年影响因子:3.248 )
ISSN: 0378-1097
年卷期: 2022 年 369 卷 1 期
页码:
收录情况: SCI
摘要: Nitric oxide (NO) homeostasis plays a versatile role in pathogen-host interactions. To maintain NO homeostasis in favor of pathogens, microbes have evolved NO degradation systems besides NO synthesis pathway, in which the flavohemoglobin and S-nitrosoglutathione (GSNO) reductase are two key enzymes. We previously proved that MoSFA1, a GSNO reductase, is required for the growth and pathogenicity in Magnaporthe oryzae. In the present work, MoFHB1, a flavohemoglobin-encoding gene in M. oryzae was functionally characterized. Although the expression of the MoFHB1 gene was developmentally regulated during conidial germination and appressorium development, disruption of MoFHB1 did not change vegetative growth, conidiation and virulence. However, compared with the Delta mosfa1 mutant, the Delta mofhb1 mutant was significantly more sensitive to NO stress, and the expression of MoSFA1 gene in the Delta mofhb1 mutant was significantly upregulated. Double deletion of MoSFA1 and MoFHB1 led to greater sensitivity of the fungus to NO stress than either of the single gene mutant, but no further reduction in pathogenicity was found compared with that of Delta mosfa1 mutant. Taken together, MoFHB1 played an important role in NO detoxification but was dispensable for virulence of M. oryzae. The flavohemoglobin MoFHB1 of Magnaporthe oryzae is involved in the endurance against nitrosative stress and not necessary for pathogenicity.
- 相关文献
作者其他论文 更多>>
-
Bio-formulated chitosan nanoparticles enhance disease resistance against rice blast by physiomorphic, transcriptional, and microbiome modulation of rice (Oryza sativa L.)
作者:Hafeez, Rahila;Guo, Junning;Ahmed, Temoor;Jiang, Hubiao;Ibrahim, Ezzeldin;An, Qianli;Li, Bin;Ahmed, Temoor;Ahmed, Temoor;Raza, Mubashar;Shahid, Muhammad;Wang, Yanli;Wang, Jiaoyu;Yan, Chengqi;White, Jason C.
关键词:Chitosan; Nanoparticles; Sustainable agriculture; Microbiome; Rice blast; Magnaporthe oryzae
-
GCPDFFNet: Small Object Detection for Rice Blast Recognition
作者:Xie, Dejin;Ye, Wei;Pan, Yining;Chen, Tianhao;Xie, Dejin;Ye, Wei;Li, Zhaoxing;Wang, Jiaoyu;Qiu, Haiping;Wang, Hongkai
关键词:convolutional neural network; rice blast recognition; small object detection
-
Antifungal profile and mechanism of bioinspired nanoscale magnesium against the agriculturally important pathogen Fusarium oxysporum f. sp. niveum
作者:Noman, Muhammad;Islam, Mohammad Shafiqul;Wang, Jing;Cai, Yingying;Hao, Zhongna;Zhang, Zhen;Wang, Yanli;Wang, Jiaoyu;Ahmed, Temoor;Islam, Mohammad Shafiqul;Li, Bin;Ahmed, Temoor;Ahmed, Temoor;Ahmad, Mudassar;Ali, Hayssam M.
关键词:
-
Utilizing zinc oxide nanoparticles as an environmentally safe biosystem to mitigate mycotoxicity and suppress Fusarium graminearium colonization in wheat
作者:Ibrahim, Ezzeldin;Hafeez, Rahila;Ogunyemi, Solabomi Olaitan;Abdallah, Yasmine;Li, Bin;Ibrahim, Ezzeldin;Xu, Lihui;Nasser, Raghda;Nasser, Raghda;Adel, Al-Shimaa Mohammed;Zhang, Zhen;Shou, Linfei;Wang, Daoze
关键词:ZnONPs; Antifungal mechanisms; DON reduction; Fusarium graminearum colonization; Plant protection
-
The OsBZR1-OsSPX1/2 module fine-tunes the growth-immunity trade-off in adaptation to phosphate availability in rice
作者:He, Yuqing;Zhao, Yao;Hu, Jitao;Wang, Lanlan;Li, Linying;Zhang, Xueying;Chen, Lili;Wang, Hua;Hong, Gaojie;He, Yuqing;Hu, Jitao;Zhou, Zhongjing;Wang, Jiaoyu
关键词:
-
Key transcription factors required for outburst of rice blast disease in Magnaporthe oryzae
作者:Wang, Qing;Huang, Zhicheng;Li, Yan;Lu, Jianping;Khan, Irshad Ali;Wang, Jing;Wang, Jiaoyu;Lin, Fucheng;Liu, Xiao-Hong;Lin, Fucheng
关键词:Appressorium formation; Conidiation; Invasive growth; Carbohydrate metabolism; Lipid metabolism; Melanin synthesis; Oxidative response; Rice blast fungus; Transcription factor; Virulence
-
Rice leaf disease detection based on enhanced feature fusion and target adaptation
作者:Li, Zhaoxing;Ye, Wei;Xu, Zhengguo;Yang, Kai;Ye, Wei;Xu, Zhengguo;Xie, Dejin;Wang, Jiaoyu;Qiu, Haiping;Wang, Hongkai
关键词:attention mechanism; deep-learning; enhanced feature fusion; rice leaf disease; target adaptation
