Exploring The Function Of Breast Cancer-Associated Variants In Long Non-Coding RNAs
Funder
National Health and Medical Research Council
Funding Amount
$501,585.00
Summary
Recent studies have identified regions within the human genome in which DNA sequence variations are associated with an increased risk of breast cancer. Several of these regions do not contain any known protein coding genes, suggesting that non-protein coding genes could be responsible for the associated risk. The aim of this proposal is to identify and characterise these non-coding genes. Understanding how sequences variations in these novel genes contribute to breast cancer will provide novel a ....Recent studies have identified regions within the human genome in which DNA sequence variations are associated with an increased risk of breast cancer. Several of these regions do not contain any known protein coding genes, suggesting that non-protein coding genes could be responsible for the associated risk. The aim of this proposal is to identify and characterise these non-coding genes. Understanding how sequences variations in these novel genes contribute to breast cancer will provide novel avenues for therapy.Read moreRead less
Translation Of Glaucoma Blindness Genes To Improve Clinical Practice
Funder
National Health and Medical Research Council
Funding Amount
$856,795.00
Summary
Glaucoma is a common cause of irreversible blindness. It is currently difficult to predict which patients with the earliest signs of glaucoma will develop blinding stages of the disease. This study will investigate how genes and eye measurements can be used to predict the risk of developing severe glaucoma in people with early signs of disease. This will ensure that high risk individuals can access treatment early, while those at low risk can be spared unnecessary treatment and seen less often.
Identifying Novel Long-noncoding RNAs Involved In The Development Of Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$785,204.00
Summary
Recent studies have identified regions within the human genome in which DNA sequence variations are associated with an increased risk of breast cancer. The aim of this proposal is to identify and characterise these non-coding genes that are modulate breast cancer risk. Understanding how sequences variations that alter these novel genes contribute to breast cancer will provide novel avenues for therapy.
Activation Of TERT Gene Expression In Breast Carcinogenesis
Funder
National Health and Medical Research Council
Funding Amount
$693,440.00
Summary
A key step in the development of most cancers is the switching on of an enzyme, telomerase, that allows cancer cells to keep growing without limit. We will study the molecular details of this step using new techniques for functional analyses of the genome in human breast cells grown in the laboratory. Blocking telomerase has great potential for cancer treatment, so analysing how this enzyme gets switched on may identify new strategies for achieving this for breast cancer - and other cancers.
Deciphering The Role Of Atypical DNA Methylation In Neuronal Genome Regulation And Neurological Disorders
Funder
National Health and Medical Research Council
Funding Amount
$773,484.00
Summary
This research will use a combination of genomic, biochemical and functional genomics approaches to investigate the role of the atypical mCH form of DNA methylation in neuronal genome regulation and function, and provide new insights into the role of the epigenome in healthy brain function and neural pathologies.
EPIGENETIC REPROGRAMMING OF MALIGNANT BREAST CANCER
Funder
National Health and Medical Research Council
Funding Amount
$863,268.00
Summary
Poorly differentiated breast cancers are aggressive tumors, frequently resistant to chemotherapy and associated with high morbidity. Herein we propose the engineering of more selective therapeutic agents able to target the genes involved in cancer initiation and resistance to treatment. We aim to correct and reprogram the cancer cell genome in state that is similar to normal, not tumorigenic cells. This work will generate novel forms of treatment for cancers that are presently not curable.