Self-Assembly of a Dipeptide with a Reduced Amount of Copper into Antifungal and Antibacterial Particles.
Michaela KaganovichMohammad TahaUri ZigEdit Y TshuvaDeborah E ShalevAbraham GamlielMeital RechesPublished in: Biomacromolecules (2024)
With the growing concern over the environmental impact and health risks associated with conventional pesticides, there is a great need for developing safer and more sustainable alternatives. This study demonstrates the self-assembly of antimicrobial and antifungal spherical particles by a dipeptide utilizing a reduced amount of copper salt compared to the commonly employed formulation. The particles can be sprayed on a surface and form an antimicrobial coating. The effectiveness of the coating against the bacteria Pectobacterium brasiliense , a common pathogen affecting potato crops, was demonstrated, as the coating reduced the bacterial load by 7.3 log. Moreover, a comprehensive field trial was conducted, where the formulation was applied to potato seeds. Remarkably, it exhibited good efficacy against three prevalent potato pathogens ( P. brasiliense , Pythium spp., and Spongospora subterranea ) while demonstrating no phytotoxic effects on the potatoes. These findings highlight the tremendous potential of this formulation as a nonphytotoxic alternative to replace hazardous pesticides currently available in the market.
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