The Pex3-mediated peroxisome biogenesis plays a critical role in metabolic biosynthesis, stress response, and pathogenicity in Alternaria alternata

Peroxisomes are microbodies involved in the metabolism of fatty acids and hydrogen peroxide (H2O2) in eukaryotes. In the current study, an AaPex3 gene encoding a peroxisome membrane protein was demonstrated to be required for peroxisome biogenesis and resistance to peroxides and superoxide-generatin...

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Veröffentlicht in:Microbiological research 2023-01, Vol.266, p.127236-127236, Article 127236
Hauptverfasser: Choo, Celine Yen Ling, Wu, Pei-Ching, Yago, Jonar I., Chung, Kuang-Ren
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Sprache:eng
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Zusammenfassung:Peroxisomes are microbodies involved in the metabolism of fatty acids and hydrogen peroxide (H2O2) in eukaryotes. In the current study, an AaPex3 gene encoding a peroxisome membrane protein was demonstrated to be required for peroxisome biogenesis and resistance to peroxides and superoxide-generating compounds. Deleting AaPex3 affected the expression of the genes encoding the NADPH oxidase (NoxA) and the Yap1 stress-responsive transcription regulator, both of which have been implicated in ROS resistance. The AaPex3-mediated peroxisome biogenesis negatively affected resistance to singlet oxygen-generating compounds, 2-chloro-5-hydroxypyridine (CHP), and 2,3,5-triiodobenzoic acid (TIBA), novel phenotypes associated with peroxisomes. Nile red staining revealed that ΔAaPex3 accumulated more lipid bodies than the wild type. ΔAaPex3 conidia had thinner cell walls than the wild type, suggesting the involvement of AaPex3 in maintaining cell wall integrity. Genetic evidence has also demonstrated that the AaPex3-mediated peroxisome biogenesis is required for conidiogenesis, conidia germination, siderophore biosynthesis, toxin production, and virulence. Biotin or lipids could restore ΔAaPex3 growth in axenic culture and on the surface of citrus leaves. In contrast, co-application of ΔAaPex3 with biotin and oleic acid on citrus leaves failed to induce necrotic lesions. Our results revealed the multifaceted functions of peroxisomes in the phytopathogenic fungus. •Peroxisome biogenesis is required for resistance to peroxides and superoxide and fungal virulence.•Peroxisome biogenesis plays a negative role in resistance to singlet oxygen-generating compounds.•Peroxisome biogenesis is required for the biosynthesis of siderophores and secondary metabolites.•Peroxisome biogenesis is required for lipid metabolism and biotin biosynthesis.•Peroxisome biogenesis is required for the maintenance of cell wall integrity and development.
ISSN:0944-5013
1618-0623
DOI:10.1016/j.micres.2022.127236