Molecular basis of the antimicrobial activity of the floral defensin, NaD1, for the plant pathogen Fusarium oxysporum. Filamentous fungi are responsible for many major plant diseases that result in devastating crop losses and food spoilage world wide. Currently there are no resistant cultivars or adequate chemical controls for many of these diseases. The plant defensin, NaD1, stops the growth of many pathogens, including the recalcitrant fungi Fusarium oxysporum and Botrytis cinerea, and has bee ....Molecular basis of the antimicrobial activity of the floral defensin, NaD1, for the plant pathogen Fusarium oxysporum. Filamentous fungi are responsible for many major plant diseases that result in devastating crop losses and food spoilage world wide. Currently there are no resistant cultivars or adequate chemical controls for many of these diseases. The plant defensin, NaD1, stops the growth of many pathogens, including the recalcitrant fungi Fusarium oxysporum and Botrytis cinerea, and has been shown to protect transgenic cotton against fungal infection in glasshouse and field trials. NaD1 has potential application for durable, broad spectrum fungal disease control in crops. This will lead to both environmental and economic benefits to Australia. Read moreRead less
Molecular basis of antimicrobial and insecticidal activity of floral defensins from the Solonaceae. The flowers of Solanaceous plants produce high levels of defensins that protect the reproductive tissues against potential damage from microorganisms. The presence of related defensins in mammals, insects and plants indicates that they are part of an ancient defence mechanism. The floral defensins are potent antifungal molecules and surprisingly also have insecticidal activity. The aim of this pro ....Molecular basis of antimicrobial and insecticidal activity of floral defensins from the Solonaceae. The flowers of Solanaceous plants produce high levels of defensins that protect the reproductive tissues against potential damage from microorganisms. The presence of related defensins in mammals, insects and plants indicates that they are part of an ancient defence mechanism. The floral defensins are potent antifungal molecules and surprisingly also have insecticidal activity. The aim of this project is to understand the molecular basis of the antifungal and insecticide activity and to use this knowledge to produce improved molecules for crop protection.Read moreRead less
Molecular basis of the antifungal and antimalarial activity of a plant defensin. The plant defensin NaD1 has potent inhibitory activity against a number of agronomically important fungal pathogens. These species are major pathogens of cotton and other important agricultural crops such as canola and potatoes. These pathogens cause serious economic losses and threaten the future of the cotton industry in Australia. NaD1 also has potential as a new antibiotic for treatment of infections in human ....Molecular basis of the antifungal and antimalarial activity of a plant defensin. The plant defensin NaD1 has potent inhibitory activity against a number of agronomically important fungal pathogens. These species are major pathogens of cotton and other important agricultural crops such as canola and potatoes. These pathogens cause serious economic losses and threaten the future of the cotton industry in Australia. NaD1 also has potential as a new antibiotic for treatment of infections in humans.Read moreRead less