Genetic And Genomic Dissection Of Polycomb Repressive Complex 2 (PRC2) In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$576,598.00
Summary
The evolution of normal cells to cancer involves mutations that activate cancer-causing genes and/or prevent the actions of anti-cancer genes. It has become increasingly evident that cancer development also involves changes to epigenetic regulation, or control of gene activity by chemical modification of the gene or its environment rather that changes in DNA sequence. This project aims to explore the tumour suppressor activity of an important epigenetic regulatory complex in lymphoma.
Early Detection Of Melanoma Metastases Using MicroRNA As Novel Biomarkers
Funder
National Health and Medical Research Council
Funding Amount
$109,363.00
Summary
The use of a minimally invasive blood test to measure the circulating levels of melanoma-specific miRNAs may provide a rapid assessment for clinical management of the disease during dissemination of the tumour. This work has the potential to provide new prognostic markers for melanoma as well as to identify new gene targets for the design of rational therapies to treat this disease.
Lung cancer is a leading cause of cancer death globally. Symptoms may not develop until disease is advanced, so it is often incurable at diagnosis. Scientific developments have greatly improved our ability to test for the changes in DNA structure and function responsible for this deadly disease and its progression. This study examines whole lung cancer genomes then uses these findings to develop safer methods for detection based on changes in DNA sequence.
A Genomic Approach Towards An Understanding Of Clonal Evolution And Disease Progression In Multiple Myeloma
Funder
National Health and Medical Research Council
Funding Amount
$671,689.00
Summary
Cancer development is associated with changes in the genetic composition of the cell. These changes involve the loss/gain of genetic material and/or changes in gene expression. Using sophisticated technology, we will define the changes in the genes that are associated with the transition from a benign to a malignant cancer state. We will examine this process in the blood cancer, multiple myeloma, in order to identify new treatment targets for this incurable disease.