Characterisation and selection of phytocompound and physical seed quality characters of chickpea (Cicer arietinum). To develop and expand both value and volume of the Australian market share for chickpea. Retention and expansion of existing markets will occur through improved seed physical traits such as size, colour and processing efficiency, whilst creation of new markets will be achieved through enhancing novel traits such as the level of phytocompounds. In collaboration with Victoria's Dep ....Characterisation and selection of phytocompound and physical seed quality characters of chickpea (Cicer arietinum). To develop and expand both value and volume of the Australian market share for chickpea. Retention and expansion of existing markets will occur through improved seed physical traits such as size, colour and processing efficiency, whilst creation of new markets will be achieved through enhancing novel traits such as the level of phytocompounds. In collaboration with Victoria's Department of Primary Industry staff, genes governing chickpea quality traits will be characterised through applying novel combinations of selection and analytical methods. A multidsciplinary team of plant breeders, grains chemists and molecular biologists will advance chickpea breeding in Australia by applying cutting-edge technologies.Read moreRead less
Targeting and stabilizing proteins in sugar storage vacuoles for metabolic engineering in sugarcane. We have isolated a novel gene for an enzyme that efficiently converts sucrose into a product of much higher value. We have shown that the enzyme functions in sugarcane, a first example of the potential for new biosynthetic capacities in this highly productive crop. Because 90% of stored sucrose is in specialized vacuoles, the enzyme needs to be directed into these vacuoles, and made stable and ac ....Targeting and stabilizing proteins in sugar storage vacuoles for metabolic engineering in sugarcane. We have isolated a novel gene for an enzyme that efficiently converts sucrose into a product of much higher value. We have shown that the enzyme functions in sugarcane, a first example of the potential for new biosynthetic capacities in this highly productive crop. Because 90% of stored sucrose is in specialized vacuoles, the enzyme needs to be directed into these vacuoles, and made stable and active there. This is feasible by building on recent discoveries about vacuolar targeting in plants. The outputs include scientific understanding to underpin metabolic engineering in plants, and a profitable high-technology export industry for Australia.Read moreRead less
Plant cyclotides as novel sustainable tools for crop protection . This project between the University of Queensland and Syngenta, a top-tier agricultural biotech company, aims at developing new crop protection technologies based on peptides. Insecticides are essential to meet the 60% increase in food production goal set by the UN but long-term exposure to traditional insecticides can harm beneficial pollinating insect populations. Expected outcomes include an exciting new insecticide technology ....Plant cyclotides as novel sustainable tools for crop protection . This project between the University of Queensland and Syngenta, a top-tier agricultural biotech company, aims at developing new crop protection technologies based on peptides. Insecticides are essential to meet the 60% increase in food production goal set by the UN but long-term exposure to traditional insecticides can harm beneficial pollinating insect populations. Expected outcomes include an exciting new insecticide technology based on natural plant defense peptides, the cyclotides, which has potential to revolutionise crop protection, leading to safer products for the environment. Benefits from the technology include a reduction in toxic insecticide residues, precision targetted applications and agrichemicals that degrade without trace.Read moreRead less
Agave; a new Australian crop with a resilient spirit. This project aims to set the foundations to establish Agave as a sustainable, versatile and climate-proof Australian crop, supporting production of a new high value spirit for domestic and global markets. Outcomes will include novel cultivation and sensor technology for agave harvest at the "sweet spot" and advanced spirit assessment technologies allied with consumer sensory testing. Product character and consistency will be optimised by holi ....Agave; a new Australian crop with a resilient spirit. This project aims to set the foundations to establish Agave as a sustainable, versatile and climate-proof Australian crop, supporting production of a new high value spirit for domestic and global markets. Outcomes will include novel cultivation and sensor technology for agave harvest at the "sweet spot" and advanced spirit assessment technologies allied with consumer sensory testing. Product character and consistency will be optimised by holistic integration and control of the production chain, encompassing plant growth, input materials, and fermentation and distillation steps for a complete plant to bottle pipeline. Read moreRead less
Cereals and rusts: molecular interactions for plant defence, food security. This project aims to discover the fundamental molecular interactions between proteases and protease inhibitors that occur in the ongoing conflict between cereals and their rust fungal pathogens. The research combines plant pathology, genomics and functional proteomics, and is enabled by a rapidly developing experimental approach known as activity-based protein profiling. The knowledge and outcomes potentially benefit pl ....Cereals and rusts: molecular interactions for plant defence, food security. This project aims to discover the fundamental molecular interactions between proteases and protease inhibitors that occur in the ongoing conflict between cereals and their rust fungal pathogens. The research combines plant pathology, genomics and functional proteomics, and is enabled by a rapidly developing experimental approach known as activity-based protein profiling. The knowledge and outcomes potentially benefit plant breeders through significantly improved resistance of cereals to rust diseases in Australia and overseas, thereby enhancing global food security.Read moreRead less
Extreme expression: building a platform for industrial plant biotechnology. Plants have remarkable potential as bioreactors for the production of usually non-plant compounds such as medical proteins, industrial proteins including enzymes and polymers. However, to realise this potential, there needs to be very significant advances in the amount of target compounds produced in the bioreactor plants and to develop other plant species as bioreactors. The aim of this project is to develop technologie ....Extreme expression: building a platform for industrial plant biotechnology. Plants have remarkable potential as bioreactors for the production of usually non-plant compounds such as medical proteins, industrial proteins including enzymes and polymers. However, to realise this potential, there needs to be very significant advances in the amount of target compounds produced in the bioreactor plants and to develop other plant species as bioreactors. The aim of this project is to develop technologies that provide the platform to produce large quantities of target novel compounds in plants and extend the range of plant species that can be used as bioreactors. These technologies will provide the basis of a dynamic biofarming industry in Australia.Read moreRead less