Three-dimensional structures, substrate specificities and catalytic mechanisms of polysaccharide synthases. Plant wall polysaccharides are extensively used for food and fibre, and are important dietary components in human nutrition. A precise knowledge of mechanisms used by plants to synthesize these polysaccharides is unavailable, but would reveal potential routes to manipulate their biosynthesis in important crop species. For example, the levels or structures of polysaccharides might be modif ....Three-dimensional structures, substrate specificities and catalytic mechanisms of polysaccharide synthases. Plant wall polysaccharides are extensively used for food and fibre, and are important dietary components in human nutrition. A precise knowledge of mechanisms used by plants to synthesize these polysaccharides is unavailable, but would reveal potential routes to manipulate their biosynthesis in important crop species. For example, the levels or structures of polysaccharides might be modified to improve their efficacy as anti-cancer agents in human diets, to enhance digestibility of animal stock feeds, or to synthesise pharmologically valuable compounds. Thus, economic, social and environmental benefits will flow to both producers and consumers. Read moreRead less
Stuctural analysis of RNA polymerase elongation complexes. RNA polymerase (RNAP) is an essential enzyme in all living cells. Its role is to convert the genetic information stored in genes into a message that can be converted into protein. Many additional factors are required to ensure that this enzyme functions correctly in the cell. The aim of this project is to obtain structural information on a bacterial RNAP complexed with an essential transcription factor called NusA. Using this information ....Stuctural analysis of RNA polymerase elongation complexes. RNA polymerase (RNAP) is an essential enzyme in all living cells. Its role is to convert the genetic information stored in genes into a message that can be converted into protein. Many additional factors are required to ensure that this enzyme functions correctly in the cell. The aim of this project is to obtain structural information on a bacterial RNAP complexed with an essential transcription factor called NusA. Using this information, plus data already obtained on the structure of this enzyme complexed with another essential factor called sigma, we will design small molecules to inhibit the interaction of these essential factors with polymerase. These molecules will serve as leads for the development of new antibiotics.Read moreRead less
Enhancement of plant proteinase inhibitors for the protection of crop plants against insect attack. The aim of this project is to characterise the interactions between various known plant proteinase inhibitors and the major digestive enzymes of insects by structural and dynamic studies and to utilise mutational studies to design new inhibitors that more effectively bind to target proteinases. The outcomes will be the knowledge to design specific inhibitors to give optimal inhibition of specific ....Enhancement of plant proteinase inhibitors for the protection of crop plants against insect attack. The aim of this project is to characterise the interactions between various known plant proteinase inhibitors and the major digestive enzymes of insects by structural and dynamic studies and to utilise mutational studies to design new inhibitors that more effectively bind to target proteinases. The outcomes will be the knowledge to design specific inhibitors to give optimal inhibition of specific insect proteinases. This knowledge will lead to novel approaches to protect economically important crops, such as cotton, from insect pests in Australia - potentially saving tens of millions of dollars per annum in chemical pesticide use and enhancing crop production in Australia and internationally.Read moreRead less
Allosteric regulation, molecular structure and function of transglutaminase 2. With Australia's ageing population, we can expect to see increasing prevalence of pathologies such as cancer, Alzheimer's disease, and cataracts. The ubiquitous enzyme transglutaminase 2 (TG2) has been implicated in all of these age-related diseases, as well as in chronic disorders such as coeliac disease and diabetes, and may contribute in a positive way to wound healing. Understanding how TG2 is activated and inac ....Allosteric regulation, molecular structure and function of transglutaminase 2. With Australia's ageing population, we can expect to see increasing prevalence of pathologies such as cancer, Alzheimer's disease, and cataracts. The ubiquitous enzyme transglutaminase 2 (TG2) has been implicated in all of these age-related diseases, as well as in chronic disorders such as coeliac disease and diabetes, and may contribute in a positive way to wound healing. Understanding how TG2 is activated and inactivated, and how it selects its targets, will be a critical addition to current knowledge of this enzyme, and will be an essential prerequisite for the development of TG2-targetted drugs and other TG2-related therapies.Read moreRead less
New fragment-based drug design technology by NMR spectroscopy. A new nuclear magnetic resonance (NMR) spectroscopic strategy will be developed for rapid determination of the structure and binding mode of low-molecular weight compounds bound to target proteins. Structural information obtained in this way will greatly accelerate drug development by fragment-based drug design, and NMR spectroscopy is the only method that can deliver this information in solution at atomic resolution. The impact of t ....New fragment-based drug design technology by NMR spectroscopy. A new nuclear magnetic resonance (NMR) spectroscopic strategy will be developed for rapid determination of the structure and binding mode of low-molecular weight compounds bound to target proteins. Structural information obtained in this way will greatly accelerate drug development by fragment-based drug design, and NMR spectroscopy is the only method that can deliver this information in solution at atomic resolution. The impact of the project for pharmaceutical research is further enhanced by extending the range of proteins amenable to NMR analysis by the development of new labelling strategies using stable isotopes, lanthanides and an unnatural amino acid in a state-of-the-art protein production system.Read moreRead less