The antifungal targets of the new fungicide N-(naphthalen-1-yl)-phenazine-1-carboxamide (NNPCN) are still incomplete, limiting its application. To identify potential new targets of NNPCN and facilitate target hunting, a suite of techniques was employed to conduct experiments on Rhizoctonia solani. Nine potential targets were identified, exhibiting strong binding affinity to NNPCN, as indicated by binding free energies below -100.000 kJ/mol. Notably, pectin lyase, glycosyl hydrolase, fumarate transporter, and cytochrome monooxygenase showed exceptionally strong binding. The mRNA expression analysis revealed significant downregulation in certain target genes: E3 ubiquitin ligase (AG1IA_02506), aldehyde dehydrogenase (AG1IA_03762), fumarate transporter (AG1IA_03944), and pectin lyase (AG1IA_03046) decreased by 42%, 66%, 83%, and 69%, respectively, while other key genes were upregulated. Pectin lyase protein was obtained through prokaryotic expression at 0.4 mg/mL concentration. A novel thiobarbituric acid test system verified pectin lyase as a potential NNPCN target, with the enzyme activity multiple being only 0.169 after NNPCN treatment. These findings enhance our understanding of NNPCN's mode of action and could guide its improved application.
Keywords: N-(naphthalen-1-yl)-phenazine-1-carboxamide; Rhizoctonia solani; dynamics; fluorescent quantitation; molecular docking; targets.