Determining recurrence risk in breast cancer is crucial, as more than half of all recurrences occur after 5 years. However, optimal management of breast cancer is hampered by the challenges in finding rational preventative and predictive targets. Our vision is to find targets responsible for progenitor cell expansion, as candidates for prevention, and to find markers of relapse, to predict early versus late responders to therapy.
Dynamics of mitochondrial cristae in life and death . This application seeks to use innovative approaches to address how massive structural arrangements in mitochondria are dealt with during normal cell function, and modulated during cell death. The study builds on discoveries made by a team with world-leading expertise in mitochondrial biology and cell death – and brings innovative, cutting-edge techniques in cell biology, proteomics and imaging. The findings will provide new fundamental insig ....Dynamics of mitochondrial cristae in life and death . This application seeks to use innovative approaches to address how massive structural arrangements in mitochondria are dealt with during normal cell function, and modulated during cell death. The study builds on discoveries made by a team with world-leading expertise in mitochondrial biology and cell death – and brings innovative, cutting-edge techniques in cell biology, proteomics and imaging. The findings will provide new fundamental insights into cellular organisation and uncover new principles of communication. Trainees will gain skills in technologies that are highly translatable and in demand in other areas of scientific endeavours. As such the expertise obtained will expand Australian research capabilities.
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Investigation of the mechanisms underlying successful placentation. The overall aim of this project is to provide novel insights into the basic cellular processes that underpin placental development and to improve our ability to manipulate mammalian reproduction, both human and animal. The placenta is critical for intrauterine development because it determines the level of nutrition, oxygenation and maternal tolerance to the developing foetus. The project intends to explore the role of prorenin ....Investigation of the mechanisms underlying successful placentation. The overall aim of this project is to provide novel insights into the basic cellular processes that underpin placental development and to improve our ability to manipulate mammalian reproduction, both human and animal. The placenta is critical for intrauterine development because it determines the level of nutrition, oxygenation and maternal tolerance to the developing foetus. The project intends to explore the role of prorenin and its receptor as a novel mechanism driving placentation. Applications for expected project outcomes may include improved breeding of threatened animal species and economically valuable domestic animals as well as improved health care and fertility control for domesticated pets and feral animals. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100830
Funder
Australian Research Council
Funding Amount
$464,928.00
Summary
Elucidating the genesis of MAIT cell-mediated immunity. T cells develop in the thymus and proceed to survey our body probing molecules that signal if anything is abnormal. A specialised subset of T cells, mucosal associated invariant T (MAIT) cells are crucial in detecting microbial molecules and infection, yet their numbers vary widely between individuals. A key problem is that the factors controlling their development and function are poorly understood. This proposal aims to decode this critic ....Elucidating the genesis of MAIT cell-mediated immunity. T cells develop in the thymus and proceed to survey our body probing molecules that signal if anything is abnormal. A specialised subset of T cells, mucosal associated invariant T (MAIT) cells are crucial in detecting microbial molecules and infection, yet their numbers vary widely between individuals. A key problem is that the factors controlling their development and function are poorly understood. This proposal aims to decode this critical issue in MAIT cell biology, using innovative tools to investigate the molecular basis underpinning their development in the thymus. This work will provide vital, fundamental discoveries into how MAIT cells are produced and regulated, as we ultimately wish to harness MAIT cells to improve human health. Read moreRead less
Understanding how mitochondria divide. This project aims to investigate the molecular mechanism by which mitochondria divide. Mitochondria are the powerhouse within our cells, and they grow and divide in our cells to ensure that they are transferred to daughter cells and also so that older mitochondria can be turned over. The project plans to build on the discovery of mitochondrial membrane proteins that are involved in fission. The results of the project could provide fundamental new knowledge ....Understanding how mitochondria divide. This project aims to investigate the molecular mechanism by which mitochondria divide. Mitochondria are the powerhouse within our cells, and they grow and divide in our cells to ensure that they are transferred to daughter cells and also so that older mitochondria can be turned over. The project plans to build on the discovery of mitochondrial membrane proteins that are involved in fission. The results of the project could provide fundamental new knowledge into how the mitochondrial division machine assembles and how mitochondrial fate is determined.Read moreRead less
Molecular mechanisms of cyclic Adenosine Monophosphate (AMP) induced apoptosis. Cyclic Adenosine Monophosphate (cAMP) is an important cellular chemical necessary for cell growth. However, de-regulated cAMP production in response to altered physiology can result in cellular death or apoptosis. This is attributed to the development of certain human diseases and this project aims to understand the molecular mechanism behind this process.
Investigation of the biology of insulin-like growth factor 1 and its derivatives for the development of new therapeutics. This project will investigate the biology of insulin-like growth factor 1, a key molecule in growth, development and, in particular, the wound healing process. Its success will lead to improved treatments for non-healing (chronic) wounds and, potentially, new anti-cancer treatments.
Purinergic signalling in placentation and vascular adaptation in pregnancy. Our traditional understanding of purinergic signalling in the placenta is significantly outdated and incomplete. The placenta is critical for reproduction in all eutherian mammals, delivering critical nutrition and oxygen to the developing fetus. This project aims to define the role of purinergic signalling as a critical mechanism driving placentation and angiogenesis. This is the first study of its kind and will use sop ....Purinergic signalling in placentation and vascular adaptation in pregnancy. Our traditional understanding of purinergic signalling in the placenta is significantly outdated and incomplete. The placenta is critical for reproduction in all eutherian mammals, delivering critical nutrition and oxygen to the developing fetus. This project aims to define the role of purinergic signalling as a critical mechanism driving placentation and angiogenesis. This is the first study of its kind and will use sophisticated models to improve our fundamental understanding and ability to manipulate mammalian reproduction via the purinoreceptors. This proposal builds on my skills and expertise; improving our knowledge of the processes driving placental and vascular morphogenesis and offers important discoveries for reproductive science.Read moreRead less
Machine learning for organelle selection & feature detection in live cells. This project aims to addresses a roadblock in cell imaging and analysis by creating new mathematical and machine learning techniques for large datasets. Using advanced imaging and these analytic tools this project aims to define newly-discovered macropinosomes - cell structures with seminal roles in immunobiology. Outcomes will include a suite of computational tools that can be applied across bioscience to fully reveal a ....Machine learning for organelle selection & feature detection in live cells. This project aims to addresses a roadblock in cell imaging and analysis by creating new mathematical and machine learning techniques for large datasets. Using advanced imaging and these analytic tools this project aims to define newly-discovered macropinosomes - cell structures with seminal roles in immunobiology. Outcomes will include a suite of computational tools that can be applied across bioscience to fully reveal and quantify information contained within microscopic imaging and high impact knowledge for immunity. Innovative approaches will benefit the nation by capacity building in interdisciplinary technology.Read moreRead less