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HapX, an Indispensable bZIP Transcription Factor for Iron Acquisition, Regulates Infection Initiation by Orchestrating Conidial Oleic Acid Homeostasis and Cytomembrane Functionality in Mycopathogen Beauveria bassiana

Yuejin Peng, Jiajia Wang, Haiyan Lin, Jin‐Li Ding, Ming‐Guang Feng, Sheng‐Hua Ying

2020mSystems66 citationsDOIOpen Access PDF

Abstract

Conidial maturation and germination are highly coupled physiological processes in filamentous fungi that are critical for the pathogenicity of mycopathogens. Compared to the mechanisms involved in conidial germination, those of conidial reserves during maturation are less understood. The insect-pathogenic fungus Beauveria bassiana , as a representative species of filamentous fungi, is important for applied and fundamental research. In addition to its conserved roles in fungal adaptation to iron status, the bZIP transcription factor HapX acts as a master regulator involved in conidial virulence and regulates fatty acid/lipid metabolism. Further investigation revealed that the Δ9-fatty acid desaturase gene ( Ole1 ) is a direct downstream target of HapX. This study reveals the HapX-Ole1 pathway involved in the fatty acid/lipid accumulation associated with conidial maturation and provides new insights into the startup mechanism of infection caused by spores from pathogenic fungi.

Topics & Concepts

Oleic acidBiologyMutantFatty acidTranscription factorBiochemistryStearic acidLipid metabolismBeauveria bassianaVirulenceCell biologyMicrobiologyGeneChemistryBotanyBiological pest controlOrganic chemistryEntomopathogenic Microorganisms in Pest ControlInsect symbiosis and bacterial influencesInsect Resistance and Genetics
HapX, an Indispensable bZIP Transcription Factor for Iron Acquisition, Regulates Infection Initiation by Orchestrating Conidial Oleic Acid Homeostasis and Cytomembrane Functionality in Mycopathogen Beauveria bassiana | Litcius