Systems Biology Of Asthma Development In Early Childhood
Funder
National Health and Medical Research Council
Funding Amount
$763,800.00
Summary
Recent studies have established that both human genetic susceptibility and viral infections during early childhood are important drivers of asthma development. It has also been noted that asthmatics’ airways are colonized with different bacteria to non-asthmatics. In this project we will examine how genetic susceptibility and interactions between bacteria and viruses in children's airways promote the development of allergy and asthma.
Integrative Genomics And Prediction Of Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$766,820.00
Summary
Technologies that measure whole molecular systems are just beginning to reveal the complexity of living organisms and the underlying molecular networks that govern them. Cardiovascular diseases emerge out of these networks as a result of genetic and molecular perturbations. This project aims to characterize the role molecular networks play in cardiovascular disease risk as well as how they react to genetic risk factors. In doing so, it will identify potential therapeutics and personalized approa ....Technologies that measure whole molecular systems are just beginning to reveal the complexity of living organisms and the underlying molecular networks that govern them. Cardiovascular diseases emerge out of these networks as a result of genetic and molecular perturbations. This project aims to characterize the role molecular networks play in cardiovascular disease risk as well as how they react to genetic risk factors. In doing so, it will identify potential therapeutics and personalized approaches to target pathogenesis.Read moreRead less
Role Of RNA-binding Proteins In Cardiomyocyte Physiology
Funder
National Health and Medical Research Council
Funding Amount
$880,494.00
Summary
Interactions between ribonucleic acids and proteins are of critical importance to gene expression and may also connect it to cell metabolism in unexpected ways. We hypothesise that this is of particular importance in cardiac health and disease. We will employ the tools of proteomics and transcriptomics to characterise the topology and function of RNA-protein interaction networks in heart muscle cells, and thus contribute to the search for better treatment.
Charting The Interface Between Cellular Metabolic States And Gene Regulation
Funder
National Health and Medical Research Council
Funding Amount
$653,196.00
Summary
The research successes of Molecular Biology and Biochemistry have given us detailed pictures of the regulatory and metabolic states of cells and tissues, yet we know little about how these states affect each other. We hypothesise the existence of regulatory interactions between ribonucleic acids, enzymes and metabolites to connect gene expression and metabolism. We will employ novel RNA Biology methods to discover such regulatory interactions in medically important cellular contexts.