Through the Australia Fellowship Prof Mattick will lead a team of researchers to explore the scientific and applied dimensions of the thesis that the human genome is not largely comprised of evolutionary debris, but encodes an extraordinarily sophisticated information suite that is largely transacted by RNA. The work will include examination of the expression patterns on noncoding RNAs in different tissues and cells and different disease states, exploration of the location and dynamics of RNAs a ....Through the Australia Fellowship Prof Mattick will lead a team of researchers to explore the scientific and applied dimensions of the thesis that the human genome is not largely comprised of evolutionary debris, but encodes an extraordinarily sophisticated information suite that is largely transacted by RNA. The work will include examination of the expression patterns on noncoding RNAs in different tissues and cells and different disease states, exploration of the location and dynamics of RNAs associated with DNA and various proteins to determine how these RNAs influence gene expression, targeted functional analyses of selected subsets of these RNAs to determine their biological function as proof-of-principle for others, exploration of the roles of RNA editing proteins, and testing of the hypothesis that RNA-directed DNA recoding might underpin memory formation. If correct, the results of the project will transform our understanding of human biology, development, and brain function, and create an enlightened framework for future research into human health and disease.Read moreRead less
I am a molecular biologist determining the mechanisms of eukaryotic mRNA translation and its regulation by RNA-binding proteins and noncoding RNA. In collaborative work I extend these basic science objectives into the medical research areas of cardiology
I am a cell-molecular biologist studying the role and regulation of the plasminogen activating (fibrinolytic) system in health and disease. My recent studies have defined a novel role for tissue-type plasminogen activator in the central nervous system and
I investigate the regulation of blood flow in skeletal muscle and the control of muscle metabolism. In particular, my research focuses on the action of insulin on the microvasculature and the consequences of impairments of this function in obesity, hypert
The focus of my research is mechanisms of growth factor receptor signal transduction and how they are altered in specific disease states, particularly cancer.