FfCOX17 is Involved in Fumonisins Production, Growth, Asexual Reproduction, and Fungicide Sensitivity in Fusarium fujikuroi

FfCOX17 is Involved in Fumonisins Production, Growth, Asexual Reproduction, and Fungicide Sensitivity in Fusarium fujikuroi

Fusarium fujikuroi, a causal agent of Rice Bakanae Disease, produces secondary metabolites such as gibberellin, pigments bikaverin, and mycotoxins fumonisins. Fumonisins produced by F. fujikuroi pose a severe threat to human and animal health. The copper chaperone protein plays a critical role in di...

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Bibliographic Details
Published in:Toxins Vol. 14; no. 7; p. 427
Main Authors: Mao, Xuewei, Wu, Zhiwen, Chen, Furong, Zhou, Mingguo, Hou, Yiping
Format: Journal Article
Language:English
Published: Basel MDPI AG 22-06-2022
MDPI
Subjects:
Animal health
Asexual reproduction
Biosynthesis
Blight
Cell growth
Cell walls
Copper
Cytochrome
Cytoplasm
Deletion mutant
FfCOX17
Fluazinam
Fludioxonil
Fumonisins
fungicide sensitivity
Fungicides
Fusarium fujikuroi
Gene expression
Gibberellins
Glucose
Heat shock
Infections
Kinases
Localization
Metabolites
Mutants
Mycotoxins
Osmotic stress
Oxidative stress
Pathogenicity
Pathogens
Pesticides
Pigments
Prochloraz
Proteins
Rice
Secondary metabolites
Sensitivity
Stress concentration
vegetative growth
Virulence
Yeasts
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Summary:Fusarium fujikuroi, a causal agent of Rice Bakanae Disease, produces secondary metabolites such as gibberellin, pigments bikaverin, and mycotoxins fumonisins. Fumonisins produced by F. fujikuroi pose a severe threat to human and animal health. The copper chaperone protein plays a critical role in different growth stages of plants, fungi, and yeasts, but their functions and regulation in fumonisin biosynthesis are still unclear. Here, a copper chaperone protein, FfCOX17, was identified in F. fujikuroi. The FfCOX17 deletion mutant (∆FfCOX17) exhibited decreased vegetative growth and asexual reproduction. The transcriptional level of the FfFUM2 gene was significantly induced in ∆FfCOX17, and the fumonisin production in ∆FfCOX17 mutants was significantly increased compared to wild-type F. fujikuroi, but the pathogenicity of ∆FfCOX17 mutants was unaffected, which may be caused by the no significantly changed gibberellin content. ∆FfCOX17 showed decreased sensitivity to oxidative stress, osmotic stress, and increased sensitivity to cell wall stress, heat shock stress, and high concentration glucose. In addition, ∆FfCOX17 also showed increased sensitivity to fungicide fluazinam and fludioxonil, and decreased sensitivity to phenamacril and prochloraz. Taken together, this study suggested that FfCOX17 is critical for fumonisin production, vegetative growth, asexual reproduction, and fungicide sensitivity, but is not required for the virulence function of F. fujikuroi on rice.
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ISSN:2072-6651
2072-6651
DOI:10.3390/toxins14070427