Comprehensive Insights into the Remarkable Function and Regulatory Mechanism of FluG during Asexual Development in Beauveria bassiana
文献类型: 外文期刊
第一作者: Li, Fang
作者: Li, Fang;Zhang, Juefeng;Zhong, Haiying;Yu, Kaili;Chen, Jianming
作者机构:
关键词: Beauveria bassiana; asexual development; upstream developmental regulatory protein; signaling pathway; protein interaction; virulence
期刊名称:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES ( 影响因子:4.9; 五年影响因子:5.6 )
ISSN: 1661-6596
年卷期: 2024 年 25 卷 11 期
页码:
收录情况: SCI
摘要: Asexual development is the main propagation and transmission mode of Beauveria bassiana and the basis of its pathogenicity. The regulation mechanism of conidiation and the key gene resources for utilization are key links to improving the conidia yield and quality of Beauveria bassiana. Their clarification may promote the industrialization of fungal pesticides. Here, we compared the regulation of morphology, resistance to external stress, virulence, and nutrient utilization capacity between the upstream developmental regulatory gene fluG and the key genes brlA, abaA, and wetA in the central growth and development pathway. The results showed that the Delta brlA and Delta abaA mutants completely lost the capacity to conidiate and that the Delta wetA mutant had seriously reduced conidiation capacity. Although the deletion of fluG did not reduce the conidiation ability as much as deletions of brlA, abaA, and wetA, it significantly reduced the fungal response to external stress, virulence, and nutrient utilization, while the deletion of the three other genes had little effect. Via transcriptome analysis and screening the yeast nuclear system library, we found that the differentially expressed genes in the Delta fluG mutants were concentrated in the signaling pathways of ABC transporters, propionate metabolism, tryptophan metabolism, DNA replication, mismatch repair, and fatty acid metabolism. FluG directly acted on 40 proteins that were involved in various signaling pathways such as metabolism, oxidative stress, and cell homeostasis. The analysis indicated that the regulatory function of fluG was mainly involved in DNA replication, cell homeostasis, fungal growth and metabolism, and the response to external stress. Our results revealed the biological function of fluG in asexual development and the responses to several environmental stresses as well as its influence on the asexual development regulatory network in B. bassiana.
分类号:
- 相关文献
作者其他论文 更多>>
-
Long-term warming and acidification interaction drives plastic acclimation in the diatom Pseudo-nitzschia multiseries
作者:Sun, Yanmin;Zhang, Yanan;Liang, Chengwei;Ye, Naihao;Li, Fang;Sun, Yanmin;Yang, Fan;Xu, Dong;Zhang, Yanan;Liang, Chengwei;Huang, Xintong;Wang, Bingkun;Wang, Yapeng;Sun, Haoming;Ye, Naihao;Duan, Ran;Fu, Fei-Xue;Wang, Zhuonan
关键词:
-
Integration of digital phenotyping, GWAS, and transcriptomic analysis revealed a key gene for bud size in tea plant (Camellia sinensis)
作者:Zhang, Shuran;Chen, Si;Fu, Zhilu;Li, Fang;Chen, Qiyu;Ma, Jianqiang;Chen, Liang;Chen, Jiedan;Chen, Yuanquan
关键词:
-
Genetic dissection of yield and yield-related traits in mungbean based on QTL meta-analysis
作者:Du, Binbin;Wu, Jia;Zhang, Xingen;Li, Fang;Lu, Baowei;An, Fengxia;Wang, Qifei;Gao, Song;Yang, Fan;Zhang, Lei;Zhang, Xiao;Huo, Dongao
关键词:mungbean; yield; QTL meta-analysis; meta-QTL; candidate gene
-
Pathogen-activated Chaetomium globosum G3 enhances iron competition and other antagonistic mechanisms to suppress maize seedling blight causal agent Fusarium verticillioides
作者:Ren, Chunlin;Li, Shiying;Li, Peipei;Wang, Yi;Li, Hui;Li, Fang;Han, Yanlai;Wang, Yi;Han, Yanlai;Yuan, Hongxia;Zhao, Qingyun
关键词:Chaetomium globosum; Biocontrol; Fusarium verticillioides; Iron competition; Fumonisin
-
Polyphenol oxidase gene editing changed the flavonoid composition and browning process of litchi ( Litchi chinensis Sonn.) callus
作者:Wang, Shujun;Li, Fang;Wang, Guo;Li, Huanling;Li, Xiaoxu;Cao, Xueren;Wang, Jiabao
关键词:Callus; Polyphenol oxidase; Flavonoids; Browning; Gene editing
-
Age-Related Water Use Pattern of the Introduced Species Atriplex canescens Was Influenced by Root Distribution in Desert
作者:Zhou, Hai;He, Zhibin;Liu, Bing;Ren, Heng;Yang, Qiyue;Kang, Jianjun;Wang, Shuai;Zhao, Wenzhi;Feng, Xiangyan;Li, Fang
关键词:
-
Physiological differences between Mo17 and B73 maize inbred lines under salt stress
作者:Zhang, Shujie;Wen, Xinyue;Zhou, Guangshun;Li, Fang;Han, Yanlai;Wang, Yi;Han, Yanlai;Wang, Yi;Wen, Xinyue;Cui, Pengjuan
关键词:Oxidative damage; plant growth; salt stress;
Zea mays L; ion balance
