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Mitochondria-Associated Protein FgNdk1 Regulates the Development, Pathogenicity, and SDHI Fungicide Sensitivity of <i>Fusarium graminearum</i> by Interacting with Succinate Dehydrogenase

Chenguang Wang, Feifei Zhao, Zhiwen Wu, Xiaowei Cai, Mingguo Zhou, Yiping Hou

2024Journal of Agricultural and Food Chemistry13 citationsDOI

Abstract

Nucleoside diphosphate kinase (NDK) plays an important role in many cellular processes in all organisms. In this study, we functionally characterized a nucleoside diphosphate kinase (FgNdk1) in Fusarium graminearum, a causal agent of Fusarium head blight (FHB). FgNdk1 was involved in the generation of energy in the electron-transfer chain by interacting with succinate dehydrogenase (FgSdhA, FgSdhC 1, and FgSdhC 2 ). Deletion of FgNdk1 not only resulted in abnormal mitochondrial morphology, decreased ATP content, defective fungal development, and impairment in the formation of the toxisome but also led to the suppressed expression level of DON biosynthesis enzymes, decreased DON biosynthesis, and declined pathogenicity as well. Furthermore, deletion of FgNdk1 caused increasing transcriptional levels of FgSdhC 1 and FgdhC 2, in the presence of pydiflumetofen, related to the decreased sensitivity to SDHI fungicides. Overall, this study identified a new regulatory mechanism of FgNdk1 in the pathogenicity and SDHI fungicide sensitivity of Fusarium graminearum .

Topics & Concepts

FusariumFungicideSuccinate dehydrogenaseMitochondrionPathogenicityBiologyDehydrogenaseBiosynthesisNucleosideEnzymeMicrobiologyMutationBiochemistryCell biologyGeneGeneticsBotanyMechanisms of cancer metastasisPlant Disease Resistance and GeneticsFerrocene Chemistry and Applications