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
Molecular Regulation Of Eosinophil Production: A Basis For Intervention In Inflammatory Disease
Funder
National Health and Medical Research Council
Funding Amount
$609,281.00
Summary
Eosinophils are rare blood cells that play a key role in the pathology of asthma and other inflammatory diseases. Asthma afflicts hundreds of millions of people worldwide, and excess eosinophils are common in many patients. We aim to define the cells involved in eosinophil development, and we will use cutting-edge technologies to identify new eosinophil regulators that may serve as drug targets or as novel entry points for development of therapeutics for asthma or other inflammatory diseases.
Identifying Early Molecular Changes Underlying Familial Alzheimer’s Disease
Funder
National Health and Medical Research Council
Funding Amount
$755,793.00
Summary
Analysis of our unique genetic model of inherited, familial Alzheimer’s disease (fAD) using advanced molecular, computational and behavioural techniques is revealing dramatic, early changes in brain function long before the disease would occur. We will expand our work to compare our first model with a model of the most common fAD mutation E280A “Paisa” from Columbia. Commonalities between the models will help us identify the initial stresses that cause Alzheimer’s disease.
Investigating The Roles Of The Wnt And Notch Signalling Systems In Colon Cancer Crypt Biology
Funder
National Health and Medical Research Council
Funding Amount
$604,439.00
Summary
Colon cancer occurs because of mutations to a tumour suppressor gene. These mutations alter the growth and positional signals for the cancer cells. This project aims to produce a computer model of the regulatory processes in normal colonic cells, to discover why the mutations lead to cancer and to discover rational drug targets for interfering with the growth of colon cancer cells.