Function and cryo-EM structure of the breast cancer predisposition gene BRCA1
- Research Opportunity
- PhD, Honours
- Number of Honour Places Available
- Medicine and Radiology
- St Vincent's Institute of Medical Research
|A/Prof Andrew Deansemail@example.com|
|Dr Rohan Bythell-Douglas|
Summary The Genome Stability Unit at St Vincent’s Institute seek an honours or PhD student to join their multidisciplinary team, to uncover the molecular level details of the BRCA1 protein. BRCA1 contributes to the majority of known familial breast cancer risk in women by promoting DNA repair, a process critical to suppression of aging and cancer.
The Genome Stability Unit at St Vincent’s Institute seek an honours or PhD student to join their multidisciplinary team, to uncover the molecular level details of the BRCA1 protein. BRCA1 contributes to the majority of known familial breast cancer risk in women by promoting DNA repair, a process critical to suppression of aging and cancer.
Disease states can arise from mutations that result in a change of just a few atoms within a protein comprised of tens of thousands of atoms. Our lab is interested in uncovering the molecular level details of important DNA repair pathways to understand the biology of healthy cells and how their dysfunction can lead to cancer. This information is the essential bedrock for developing preventative or chemotherapeutic therapies.
The project involves state of the art electron microscopy to visualise molecular level details of BRCA1 and its interaction partner protein BARD1. A model of BRCA1 bound to BARD1 is of significant scientific and therapeutic interest for the understanding of these proteins’ role in breast cancer predisposition, and how different mutations cause different levels of risk. Our lab is also equipped to perform follow-up biochemical experiments based on information obtained through generation of the model. We have already established methods for producing other proteins involved in the DNA repair pathway and for interrogating their activity in the laboratory using both biochemical and cell-based assays. The Genome Stability also works closely with other teams based in familial cancer clinics and breast cancer treatment centres.
The ideal candidate would be self-motivated, keen to learn numerous biochemical and cell-based techniques, and above all want to contribute to our knowledge of proteins involved in breast cancer predisposition and DNA repair.
Faculty Research Themes
School Research Themes
Students who are interested in joining this project will need to consider their elegibility as well as other requirements before contacting the supervisor of this research
For further information about this research, please contact a supervisor.
Research NodeSt Vincent's Institute of Medical Research
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