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
The Role Of Food Components In The Modification Of Colorectal Cancer Risk At The Epigenomic Level.
Funder
National Health and Medical Research Council
Funding Amount
$28,609.00
Summary
Colorectal cancer represents a substantial burden to the health system. Primary prevention rather than treatment is more cost effective and can reduce morbidity and mortality. This study program will contribute to the emerging research area of nutrigenomics and nutritional epigenomics, by investigating the interaction between nutrition and gene expression. Such research can assist in establishing a diet which can best help to prevent colorectal cancer, at an individual or population level.
Functional Characterization Of The Regulatory Architecture Of Melanoma-associated Loci
Funder
National Health and Medical Research Council
Funding Amount
$645,663.00
Summary
Melanoma accounts for more than 75% of skin cancer related deaths. In Australia, >10,000 new cases are diagnosed yearly. In this proposal, we will apply novel genetic sequencing technologies developed in our laboratory to examine genomic regions that are associated with melanoma development. By focusing on selected areas, we will obtain a much deeper understanding of how these genes are regulated and find new ways of detecting and treating this disease.
Investigation Into The Alternative Splicing Of Steroid Hormone Regulated Genes In Breast Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$292,216.00
Summary
Steroid hormones have imortant roles in breast tissue growth and differentiation. We have identified several proteins called PRMT6 and CAPER's , that are involved in steroid hormone signaling and control the alternative splicing of RNA, the process in which several different proteins can be produced from a single gene. Our aim is to study these proteins in an effort to understand how they influence alternative splicing and to identify genes they control in relation to breast cancer.