Determining how the soluble dietary fibre beta-glucan is made in cereals. This Project aims to define the molecular mechanisms that control the processes involved in the biosynthesis and regulation of mixed linkage glucan, a major soluble dietary fibre in the cell walls of cereal grains. Plant cell walls determine the quality of most plant-based products used in modern human societies, yet the regulatory mechanisms responsible for their modulation are not well understood. Key distinguishing feat ....Determining how the soluble dietary fibre beta-glucan is made in cereals. This Project aims to define the molecular mechanisms that control the processes involved in the biosynthesis and regulation of mixed linkage glucan, a major soluble dietary fibre in the cell walls of cereal grains. Plant cell walls determine the quality of most plant-based products used in modern human societies, yet the regulatory mechanisms responsible for their modulation are not well understood. Key distinguishing features of the Project will be the international, integrative, and multidisciplinary approach towards addressing this major challenge in plant biology and the potential of the fundamental scientific discoveries to benefit end-users in the food, feed and beverage industries.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