A Universal Clinical Test For Gene Fusions In Blood Cancer
Funder
National Health and Medical Research Council
Funding Amount
$628,001.00
Summary
Mis-repair of broken chromosomes results in gene fusion and is a common feature of blood cancers. Current tests are only capable of detecting well-known gene fusions and are incapable of identifying new fusion events or fusion variations. We have developed a scientific technique, termed CaptureSeq, that can address these issues. We propose to use this technique as the foundation for a single clinical test for blood cancers, capable of detecting all possible fusion variations – known and unknown.
Diagnosing Chromosomal Translocations In Solid Tumours
Funder
National Health and Medical Research Council
Funding Amount
$410,997.00
Summary
Mis-repair of broken chromosomes can fuse together genes that then cause cancer. Current clinical tests are only capable of detecting single well-known gene fusions and are incapable of identifying new fusion events or fusion variations. We have developed a diagnostic technology, termed CaptureSeq, that is capable of finding all fusion genes in a patient sample. In this grant, we will demonstrate the use and advantages of CaptureSeq for diagnosing fusion genes in cancer patients.
Using Mouse Models To Decipher The Function Of Caspase-2 In Limiting Aneuploidy Tolerance And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$871,162.00
Summary
Aneuploidy or abnormal chromosome number is a feature of cancer cells. The extent of aneuploidy is often predictive of prognosis and the effectiveness of cancer treatment. We discovered that a tumour suppressing protein, caspase-2, is important for deleting aneuploid cells that may otherwise become cancerous. In this project we will use cancer models to decipher how caspase-2 safeguards against aneuploidy and cancer to better understand how cancer cells can survive and be targeted for treatment.
The Relationship Between Genes, Environment And Oral Disease In Childhood - A Study Of Twins
Funder
National Health and Medical Research Council
Funding Amount
$88,766.00
Summary
Half of Australia's children suffer tooth decay, placing them at risk of toothache, infection and hospitalisation, as well as a host of other problems like sleeping, eating and concentrating. Current preventive strategies are failing, due to an incomplete understanding of the causes of decay. This study of twins, who have been followed since pregnancy, will help to explain the role of genetics as well as other factors such as maternal and early childhood illness in dental disease.
Whole Genome Pharmacogenomics Study Of Susceptibility Of Birth Defects In Children Born To Mothers Taking Anti-Epileptic Drugs
Funder
National Health and Medical Research Council
Funding Amount
$663,160.00
Summary
This project will investigate for genes that determine why certain women have an increased risk of having a baby with a birth defect if they become pregnant while being treated with a medication for epilepsy. Subjects will be recruited from the Australian Pregnancy Register, the findings validated using subjects from the UK Epilepsy and Pregnancy Register. The study will comprehensively examine for both common and rare changes in genes across the entire human genome.
Genomic Signposts, High-resolution Sequencing And Novel Genes In Eye Disease
Funder
National Health and Medical Research Council
Funding Amount
$333,694.00
Summary
Blindness is a very distressing sensory loss. Hereditary eye disorders account for the vision impairment in at least one-third of people who are registered as blind. These disorders cause blindness from a young age and work productivity is significantly impaired. This project will identify novel genetic factors in blinding eye disorders. Identifying these genetic factors will lead to better early detection methods for people and improved treatments to prevent the blindness.
Sex Chromosome Instability In Disorders Of Development
Funder
National Health and Medical Research Council
Funding Amount
$627,633.00
Summary
Chromosomes must be copied and distributed faultlessly into the newly dividing cells for normal development to occur. Factors that affect this process are often associated with health problems such as birth disorders, cancer, premature aging and infertility. This project plans to identify genetic factors that compromise the faithful transmission of chromosomes from cell to cell. Results gained from this project will greatly assist in the diagnosis of chromosome-related disorders.
Epigenetic Regulation Of Male Fetal Germ Cell Development.
Funder
National Health and Medical Research Council
Funding Amount
$562,176.00
Summary
Men’s health has declined over recent decades, but the causes remain unknown. Non-genetic (epigenetic) mechanisms affecting formation and function of the male germ cells (which produce sperm) may play an important role. We will determine the role of a key epigenetic modifier on the formation and function of male germ cells, including germ cell tumours. This study will provide fundamental insights into male germ cell epigenetics, and significantly contribute to understanding men's health.