In-silico prediction of highly promising natural fungicides against the destructive blast fungus Magnaporthe oryzae

“…The antimicrobial CaAMP1 protein in the leaf extract may be responsible for the inhibitory effect of C. annum extract on R. solani by inhibiting fungal spore germination and hyphal growth, while that of S. tuberosum may be due to a trypsin inhibitor. In silico screening has successfully been utilized for identification of potential fungicide against destructive rice blast fungus Magnaporthe oryzae [55,56]. Our protein-peptide docking studies revealed that AMP1, AMP3, AMP10, AMP12b, and AMP15 had the most favourable binding free energy against histone demethylase.…”

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“…The antimicrobial CaAMP1 protein in the leaf extract may be responsible for the inhibitory effect of C. annum extract on R. solani by inhibiting fungal spore germination and hyphal growth, while that of S. tuberosum may be due to a trypsin inhibitor. In silico screening has successfully been utilized for identification of potential fungicide against destructive rice blast fungus Magnaporthe oryzae [55,56]. Our protein-peptide docking studies revealed that AMP1, AMP3, AMP10, AMP12b, and AMP15 had the most favourable binding free energy against histone demethylase.…”

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Antifungal Drug Discovery Using Bioinformatics Tools

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