Alternative Oxidase to Optimise Plant Growth and Stress Tolerance. Biomass accumulation in plants is the balance of CO2 fixed into carbohydrates through photosynthesis and carbohydrate burned (respired), ~ 50% of fixed CO2, to fuel growth. Plants possess energy conserving and non-conserving respiratory pathways. The alternative energy non-conserving pathway appears wasteful but is necessary for plant tolerance to adverse growth conditions. Our research has achieved modification of the alternativ ....Alternative Oxidase to Optimise Plant Growth and Stress Tolerance. Biomass accumulation in plants is the balance of CO2 fixed into carbohydrates through photosynthesis and carbohydrate burned (respired), ~ 50% of fixed CO2, to fuel growth. Plants possess energy conserving and non-conserving respiratory pathways. The alternative energy non-conserving pathway appears wasteful but is necessary for plant tolerance to adverse growth conditions. Our research has achieved modification of the alternative respiratory pathway that positively impacts plant growth. We will dissect the mechanism(s) of how the alternative respiratory pathway stimulates growth, from a molecular level to whole plant physiology, answering a long-standing question of the role of the alternative respiratory pathway in plant cell biology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100806
Funder
Australian Research Council
Funding Amount
$419,854.00
Summary
Towards herbicide cocktails with a new mode of action to avert resistance. This project aims to target herbicide resistant weeds which represent one of the largest threats to Australian and global food security. Targeting of unexplored pathways in plants to develop a novel herbicide strategy is expected to be achieved, and will include the structural and functional characterisation of key enzymes in these pathways. This project is expected to provide significant benefits for effective weed manag ....Towards herbicide cocktails with a new mode of action to avert resistance. This project aims to target herbicide resistant weeds which represent one of the largest threats to Australian and global food security. Targeting of unexplored pathways in plants to develop a novel herbicide strategy is expected to be achieved, and will include the structural and functional characterisation of key enzymes in these pathways. This project is expected to provide significant benefits for effective weed management to sustain Australia’s agricultural industry through enhanced food production from increased crop yields, whilst ensuring food security. These outcomes, coupled with decades of over-reliance on current herbicides, means there has never been a greater need for new and effective herbicides.Read moreRead less