New methodology for the manufacture of opioid pharmaceuticals and the discovery of novel opiate receptor ligands. Semi-synthetic opiates are important analgesic agents and are used in the treatment of alcohol and opiate dependence. This project will focus on the application of new, greener and more efficient methods for the preparation of these medicinal agents.
Subtype selectivity and functional bias of receptor positive allosteric modulators for understanding models of pulmonary disease. G-protein-coupled receptors (GPCRs) are an important superfamily of proteins that are involved in a myriad of physiological processes and a wide range of serious illnesses. This project seeks to gain a more detailed understanding of new mechanisms of GPCR modulation and function that will be of direct relevance to drug discovery.
Innovations in peptide-based drug design. This project will aim to develop new types of drugs that fill a gap between existing small molecule drugs, which are relatively inexpensive and stable, but often have side-effects, and biologics which are very expensive and require injection. Our new generation of peptide-based drugs promise to be applicable to diseases that are not treatable by current drugs.
Tailoring cellulose properties by manipulating cellulose synthase. Cellulose, a highly abundant polymer produced by plants, has many existing uses in Australian fibre and polymer industries and potential uses as, for example, an abundant feedstuff for biomass conversion into ethanol and other high value products. The optimal properties for different applications vary so that, for example, high crystallinity cellulose gives strong fibres whereas low crystallinity cellulose dissolves in gentler so ....Tailoring cellulose properties by manipulating cellulose synthase. Cellulose, a highly abundant polymer produced by plants, has many existing uses in Australian fibre and polymer industries and potential uses as, for example, an abundant feedstuff for biomass conversion into ethanol and other high value products. The optimal properties for different applications vary so that, for example, high crystallinity cellulose gives strong fibres whereas low crystallinity cellulose dissolves in gentler solvents on the way to producing cellulose-based polymers. By exploring ways to adjust the properties of celluloses for use in different applications, we can deliver potential benefits to primary producers, industries and the environment.
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Novel antimicrobial surface coatings for Cochlear implants. The objective of this project is to develop new antimicrobial coatings for materials used to manufacture biomedical devices. Infection associated with the use of biomaterials such as biomedical implants, catheters and orthopaedic prostheses is a major barrier to the use of these devices. The coatings that the project plans to develop are based on novel antimicrobials which have been shown to prevent adhesion and colonisation of biomater ....Novel antimicrobial surface coatings for Cochlear implants. The objective of this project is to develop new antimicrobial coatings for materials used to manufacture biomedical devices. Infection associated with the use of biomaterials such as biomedical implants, catheters and orthopaedic prostheses is a major barrier to the use of these devices. The coatings that the project plans to develop are based on novel antimicrobials which have been shown to prevent adhesion and colonisation of biomaterials by bacteria in vivo. This strategy has the potential to prevent device-related infections and revolutionise the biomaterials industry.Read moreRead less
Understanding glycopolymer interactions with the extracellular matrix. This project aims to advance knowledge of the biochemical and biophysical structure of the endothelial glycocalyx, a dynamic cell surface extracellular matrix rich in proteoglycans and glycosaminoglycans. It will be the first to explore how charged glycopolymers interact with this dynamic interface with the goal to develop a model of the glycocalyx lifecycle. This project is expected to enable the transfer of skills, knowledg ....Understanding glycopolymer interactions with the extracellular matrix. This project aims to advance knowledge of the biochemical and biophysical structure of the endothelial glycocalyx, a dynamic cell surface extracellular matrix rich in proteoglycans and glycosaminoglycans. It will be the first to explore how charged glycopolymers interact with this dynamic interface with the goal to develop a model of the glycocalyx lifecycle. This project is expected to enable the transfer of skills, knowledge and ideas as well as advanced research and industrial training for young scientists. Knowledge derived from this project is expected to enable future innovation in molecules with tailored interactions with the glycocalyx with significant benefits for researchers, manufacturers and end users. Read moreRead less
Detection and elimination of resting spores of Olpidium vectoring lettuce big-vein disease in lettuce seedling nursery production. This project will devise nucleic acid and serology methods for detection of Olpidium brassicae, vector of lettuce big-vein disease (LBVD), during various phases of lettuce seedling production in nursery environments. It will be the first study to develop sustainable and environmentally responsible nursery best-practice protocols for integrated management of O. brass ....Detection and elimination of resting spores of Olpidium vectoring lettuce big-vein disease in lettuce seedling nursery production. This project will devise nucleic acid and serology methods for detection of Olpidium brassicae, vector of lettuce big-vein disease (LBVD), during various phases of lettuce seedling production in nursery environments. It will be the first study to develop sustainable and environmentally responsible nursery best-practice protocols for integrated management of O. brassicae in routine seedling production and for management within the lettuce industry. These protocols will ensure that the spread of LBVD from contaminated lettuce nurseries to farms is prevented. It will also be a unique study of the establishment of a disease in new land with different soils and agricultural practices.Read moreRead less
Fragment based screening to deliver drugs targeting tuberculosis and the gametocyte and liver stages of Plasmodium. This project will identify natural products that bind to critical proteins in malaria and tuberculosis to discover new ways to treat these diseases.
Engineered extrasynaptic GABAA receptors: Towards novel analgesics. Engineered extrasynaptic GABAA receptors: Towards novel analgesics. This project intends to alleviate neuropathic pain by developing drugs and good tool molecules targeting GABA-A receptors. About 20% of Australian adults suffer from neuropathic pain. Delta-containing GABA-A receptors represent attractive and novel targets for developing non-opioid analgesics. However, no drugs or good tool molecules target these receptors. This ....Engineered extrasynaptic GABAA receptors: Towards novel analgesics. Engineered extrasynaptic GABAA receptors: Towards novel analgesics. This project intends to alleviate neuropathic pain by developing drugs and good tool molecules targeting GABA-A receptors. About 20% of Australian adults suffer from neuropathic pain. Delta-containing GABA-A receptors represent attractive and novel targets for developing non-opioid analgesics. However, no drugs or good tool molecules target these receptors. This project intends to develop the needed enabling technologies, including screening assays, tool molecules and radioligands; and perform brain slice electrophysiology to confirm activity in neuronal cells. This project is expected to benefit the research community and future rational drug-discovery endeavours for drugs that modulate delta-containing receptors.Read moreRead less
Discovery and development of novel insulin sensitising compounds for the treatment of Type 2 diabetes. Diabetes is one of the major health problems facing Australia today, and current treatments are proving inadequate to combat this disease. We previously discovered a new drug with potential for development for the treatment of diabetes. In this project, we will identify how this drug works to combat diabetes in cell and animal models, and use novel chemistry approaches to modify the drug to imp ....Discovery and development of novel insulin sensitising compounds for the treatment of Type 2 diabetes. Diabetes is one of the major health problems facing Australia today, and current treatments are proving inadequate to combat this disease. We previously discovered a new drug with potential for development for the treatment of diabetes. In this project, we will identify how this drug works to combat diabetes in cell and animal models, and use novel chemistry approaches to modify the drug to improve its properties and reduce potential side-effects. The outcomes of this project will be understanding of a new biological process that contributes to the development of diabetes, and the discovery and characterisation of new chemical compounds that could be developed as drugs to treat diabetes.Read moreRead less