Oxidation Of Mismatch: A New Concept For Mutation Detection Which Avoides A Separation Method In Mutation Scanning
Funder
National Health and Medical Research Council
Funding Amount
$143,000.00
Summary
Detection of faults (mutations) in genes is expensive but essential for proper genetic health care. Because of the cost of such tests many people are not diagnosed either through diagnostic labs or research of the cost of such tests many people are not diagnosed either through diagnostic labs or research projects. Such research projects are inhibited due to the complexity of the current methods. Current methods are complex and expensive, especially looking for a possible fault, due to what is ca ....Detection of faults (mutations) in genes is expensive but essential for proper genetic health care. Because of the cost of such tests many people are not diagnosed either through diagnostic labs or research of the cost of such tests many people are not diagnosed either through diagnostic labs or research projects. Such research projects are inhibited due to the complexity of the current methods. Current methods are complex and expensive, especially looking for a possible fault, due to what is called a preparation step on complex and expensive equipment. We will develop and commercialise a simpler test because separation is avoided.Read moreRead less
Gene Discovery And Characterisation In The Familial Focal Epilepsies
Funder
National Health and Medical Research Council
Funding Amount
$428,065.00
Summary
Around 2% of people have epilepsy at some time in their lives. A large proportion of cases are thought to have a genetic cause, but genes have not yet been identified for most patients. The aim of this project is to use state-of-the-art genetic methods to identify genetic mutations causing epilepsy and to then study the effects of these mutations to better understand the biological causes of epilepsy. This in turn will lead to better diagnosis of epilepsy and improved treatment for patients.
Analysis Of Circulating Tumour DNA For Mutational Characterisation And Tracking Disease Progression In Multiple Myeloma
Funder
National Health and Medical Research Council
Funding Amount
$908,676.00
Summary
Multiple myeloma is cancer of plasma cells in the bone marrow and presents at multiple sites with dissimilar genetic information (GI) across these sites. Invasive biopsies of multiple sites are required to determine the GI. Cancer cells shed small amounts of DNA into the blood stream and this circulating DNA (ctDNA) contains GI from multiple cancer sites. This project will evaluate the utility of ctDNA to determine GI and to predict treatment response in MM patients.
Pre-clinical Evaluation Of The LSD1 Inhibitor HCI-2509: Defining The Biomarkers Of Sensitivity And The Mechanisms Of Resistance
Funder
National Health and Medical Research Council
Funding Amount
$340,068.00
Summary
Despite aggressive multi-modal treatment strategies, limited progress in the treatment of Ewing sarcoma (paediatric bone malignancy), has been achieved over the past 30 years. As such, the advent of novel and targeted therapeutics with favourable efficacy/toxicity profiles are eagerly awaited. This proposal will investigate the therapeutic utility of LSD1 inhibition as a treatment for Ewing sarcoma and the underlying mechanisms of sensitivity/resistance to this unique agent.
Co-operation Between GATA2 Mutation Or Expression And RAS Signalling In AML
Funder
National Health and Medical Research Council
Funding Amount
$860,601.00
Summary
We have identified a gene GATA2 which, when mutated, can lead to leukaemia (blood cancer). We will collect samples worldwide from families and individuals that carry GATA2 mutations and have developed leukaemia, and will screen for other genetic changes that contribute to leukaemia. We have also identified a novel group of patients who have a low GATA2 activity and who also have mutations in the RAS gene, a known contributor to leukaemia. We will determine how these cooperate to cause leukaemia.
LINEs Of Mutagenesis, Selection And Evolution In Ovarian Cancer And Chemoresistance
Funder
National Health and Medical Research Council
Funding Amount
$425,048.00
Summary
L1 elements are powerful mutagens encoded within the human genome that becomes active in epithelial tumours. I will define the broad effects of L1 elements on the evolution of chemoresistance, focusing on ovarian cancer as a model system. Ovarian cancer is characterised by a poor 5 year survival rate of ~40% with most tumours developing resistance. Understanding the impacts of L1 on this evolution will inform the development and selection of more effective treatments for ovarian cancer.