This study investigatedthe mechanism of epinecidin-1 against Botrytis cinerea, in vitro, and its effectiveness at inhibiting gray mold on postharvest peach fruit. We found that in vitro, epinecidin-1 had significantly greater antifungal activity against B. cinerea than either clavanin-A or mytimycin, two other marine derived antimicrobial peptides that we tested. Its antifungal activity was heat-resistant (15 min at 40-100 °C) and tolerant to lower concentrations of cations (<100 mM Na+, K+; <10 mM Ca2+). Epinecidin-1 interacted directly with B. cinerea genomic DNA, and that in mycelia, epinecidin-1 exposure induced accumulation of intracellular ROS and increased the permeability of cell membranes resulting in... More
This study investigatedthe mechanism of epinecidin-1 against Botrytis cinerea, in vitro, and its effectiveness at inhibiting gray mold on postharvest peach fruit. We found that in vitro, epinecidin-1 had significantly greater antifungal activity against B. cinerea than either clavanin-A or mytimycin, two other marine derived antimicrobial peptides that we tested. Its antifungal activity was heat-resistant (15 min at 40-100 °C) and tolerant to lower concentrations of cations (<100 mM Na+, K+; <10 mM Ca2+). Epinecidin-1 interacted directly with B. cinerea genomic DNA, and that in mycelia, epinecidin-1 exposure induced accumulation of intracellular ROS and increased the permeability of cell membranes resulting in leakage of nucleic acids and aberrant cell morphology. Meanwhile, 200 μM of epinecidin-1 had a significant inhibitory effect on gray mold injected into peach fruit. These results suggested that epinecidin-1 showed promise as a potential method for controlling postharvest gray mold in peaches.
