Protecting tomato crops from Fusarium wilt through the efficient application of new genetic resources. The tomato industry is a major horticultural industry in Australia, and Queensland is the major producer of tomatoes for the fresh food market. In Queensland, the tomato industry has expanded in the face of the threat that Fusarium wilt could re-emerge as a major disease problem. This research will ensure that measures can be taken quickly and efficiently to protect existing genetic resources u ....Protecting tomato crops from Fusarium wilt through the efficient application of new genetic resources. The tomato industry is a major horticultural industry in Australia, and Queensland is the major producer of tomatoes for the fresh food market. In Queensland, the tomato industry has expanded in the face of the threat that Fusarium wilt could re-emerge as a major disease problem. This research will ensure that measures can be taken quickly and efficiently to protect existing genetic resources used to control Fusarium wilt. It will also improve our knowledge about the mechanisms plants use to defend themselves against Fusarium wilt diseases.Read moreRead less
Targeting of lipid transfer proteins and other secreted plant defence proteins by pathogen effectors. Australia depends on plant products for much of its export income and plant diseases are a continual threat to these earnings. New insights into plant disease resistance mechanisms will provide new opportunities to find solutions to disease problems. Often this involves transfer of knowledge gained in simple model plant systems to more complicated crop plant systems. Work on the role of lipid tr ....Targeting of lipid transfer proteins and other secreted plant defence proteins by pathogen effectors. Australia depends on plant products for much of its export income and plant diseases are a continual threat to these earnings. New insights into plant disease resistance mechanisms will provide new opportunities to find solutions to disease problems. Often this involves transfer of knowledge gained in simple model plant systems to more complicated crop plant systems. Work on the role of lipid transfer proteins in the tomato model system will advance our knowledge of fundamental disease and disease resistance processes and ultimately enable technological innovations to improve disease resistance, reduce pesticide usage and lower crop production costs.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170101165
Funder
Australian Research Council
Funding Amount
$370,808.00
Summary
Molecular interaction between tomato and Fusarium oxysporum. This project aims to develop fungus-resistant crops. Fungal pathogens of crop plants threaten food production food security. The fungus Fusarium oxysporum is the fifth most notorious fungal pathogens of crop plants. This project will use the tomato–Fusarium oxysporum pathosystem to discover how Fusarium manipulates plants to infect them and how plants can resist Fusarium infection. Anticipated outcomes include reduced yield loss in tom ....Molecular interaction between tomato and Fusarium oxysporum. This project aims to develop fungus-resistant crops. Fungal pathogens of crop plants threaten food production food security. The fungus Fusarium oxysporum is the fifth most notorious fungal pathogens of crop plants. This project will use the tomato–Fusarium oxysporum pathosystem to discover how Fusarium manipulates plants to infect them and how plants can resist Fusarium infection. Anticipated outcomes include reduced yield loss in tomato and other crop plants by using genome-editing techniques to develop Fusarium-resistant cultivars.Read moreRead less