The Role Of Transcriptional Co-activators And Co-repressors During Embryonic Development
Funder
National Health and Medical Research Council
Funding Amount
$82,421.00
Summary
Every creature starts out as a single fertilized egg. The genome directs the embryonic development of the egg by regulating the expression of genes each of which must be turned on or off at the correct time and place. This essential balance between the activation or repression of genes is controlled by groups of proteins, including ‘transcriptional co-activators’ and ‘repressors’. This project aims to better understand the role of these proteins during embryonic development.
Genomic Analysis Of The Novel Epigenetic Modifier Smchd1 As A Tumour Suppressor
Funder
National Health and Medical Research Council
Funding Amount
$619,142.00
Summary
Epigenetic modifications are changes made to our DNA that act like punctuation marks in the genome, to instruct the cell when to turn genes on and when to switch them off. Epigenetic control is critical to range of different biological processes, and also goes awry in cancer. We are specifically interested in the role of one new protein involved in epigentic control and characterising its role as a tumour suppressor.
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.
A Structural And Functional Basis For The Regulation Of Gene Expression By Nuclear Retention Of RNA
Funder
National Health and Medical Research Council
Funding Amount
$504,097.00
Summary
The nuclear retention mechanism is a novel way used by cells to control which genes are made into proteins - a fundamental process for all diseases, particularly cancers. This project will employ cutting edge structural and proteomic techniques to determine the molecular details underpinning nuclear retention. These insights will be important for the development of new tissue-restricted gene therapy applications and drugs targeting the cancers that rely on this mechanism.