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Characterisation of insulin-independent glucose uptake mediated by guanine nucleotide-binding proteins (G-proteins) coupled receptors. This project will provide first class postdoctoral training for Dr Sato in the laboratory of A/Prof Bengtsson one of the pioneers in the field of cell metabolism. He will learn new approaches to the study of cell signalling including the use of ribonucleic acid interference (RNAi) technologies and of a series of functionally altered mutants of phosphatidylinosito ....Characterisation of insulin-independent glucose uptake mediated by guanine nucleotide-binding proteins (G-proteins) coupled receptors. This project will provide first class postdoctoral training for Dr Sato in the laboratory of A/Prof Bengtsson one of the pioneers in the field of cell metabolism. He will learn new approaches to the study of cell signalling including the use of ribonucleic acid interference (RNAi) technologies and of a series of functionally altered mutants of phosphatidylinositol (PI) 3-kinase that he will bring back to Monash University. A better understanding of the cell signalling mechanisms involved in glucose transport will be of enormous benefit in developing new approaches to the treatment of diseases such as type II diabetes.Read moreRead less
Pharmacological and biochemical characterisation of Australian mygalomorph spider venoms. This project will increase our limited knowledge of Australian mygalomorph venoms by isolation, identification and characterisation of novel toxins in theraphosid and Northern mouse-spider venoms. Thereby, the scientific basis for the treatment of mygalomorph spider bites might be improved. Secondly, new insights into pharmacology and the potential development of novel therapeutics and molecular probes of t ....Pharmacological and biochemical characterisation of Australian mygalomorph spider venoms. This project will increase our limited knowledge of Australian mygalomorph venoms by isolation, identification and characterisation of novel toxins in theraphosid and Northern mouse-spider venoms. Thereby, the scientific basis for the treatment of mygalomorph spider bites might be improved. Secondly, new insights into pharmacology and the potential development of novel therapeutics and molecular probes of target molecules might be expected.Read moreRead less
Fluid mechanics and physiology of blockages in vascular systems. Vascular disease is a major health problem both in Australia and worldwide. In particular, cardiovascular disease is a major killer of adult Australians. Engineers and mathematicians working with biologists will gain a greater understanding of vascular diseases, a major health problem, including cardiovascular disease, which is one of the biggest killers worldwide, as well as tackling renal circulation problems, which are a signifi ....Fluid mechanics and physiology of blockages in vascular systems. Vascular disease is a major health problem both in Australia and worldwide. In particular, cardiovascular disease is a major killer of adult Australians. Engineers and mathematicians working with biologists will gain a greater understanding of vascular diseases, a major health problem, including cardiovascular disease, which is one of the biggest killers worldwide, as well as tackling renal circulation problems, which are a significant problem and may contribute to hypertension. Detailed measurement and prediction will be undertaken of the mechanical loading and response of cells to their microenvironment, an important first step to controlling pathological responses which lead to a variety of autoimmune problems.Read moreRead less