Understanding the critical processes that control cell death and using this knowledge to kill cells that have evaded death. Cell death is essential for protecting the body against cancer, and defects in cell death pathways contribute to cancer progression. To design new and better cancer therapies we must understand the critical processes which control cell death, and develop effective ways to either reset, or bypass, defects in cell death pathways that contribute to cancer. The program as outl ....Understanding the critical processes that control cell death and using this knowledge to kill cells that have evaded death. Cell death is essential for protecting the body against cancer, and defects in cell death pathways contribute to cancer progression. To design new and better cancer therapies we must understand the critical processes which control cell death, and develop effective ways to either reset, or bypass, defects in cell death pathways that contribute to cancer. The program as outlined will elucidate the process of mitochondrial outer membrane permeabilization, a critical event in cell death by apoptosis, and determine how to kill cells in which this event is blocked.Read moreRead less
The roles of novel pathways in the activation and regulation of the adaptive immune response in health and disease. The immune system is designed to protect us against infection and vaccines exploit this with great success in preventing many infections. However, the immune system can also 'fail' and attack the body in a process called autoimmunity e.g. destroying joints in rheumatoid arthritis. This proposal will define how white blood cells work to make better vaccines against infection and ho ....The roles of novel pathways in the activation and regulation of the adaptive immune response in health and disease. The immune system is designed to protect us against infection and vaccines exploit this with great success in preventing many infections. However, the immune system can also 'fail' and attack the body in a process called autoimmunity e.g. destroying joints in rheumatoid arthritis. This proposal will define how white blood cells work to make better vaccines against infection and how these same immune cells can malfunction to create autoimmune diseases like Crohn's disease.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775673
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
A high throughput protein crystallization & imaging facility. Protein crystallography is an important field of research that enables us to understand the precise shape of proteins. The precise shape of a protein determines the function of a protein. This information is essential in understanding the physiological role of a protein and may be used for the development of therapeutics, where approrpiate. We aim to develop a high-throughput robotics system that will enable us to determine the sh ....A high throughput protein crystallization & imaging facility. Protein crystallography is an important field of research that enables us to understand the precise shape of proteins. The precise shape of a protein determines the function of a protein. This information is essential in understanding the physiological role of a protein and may be used for the development of therapeutics, where approrpiate. We aim to develop a high-throughput robotics system that will enable us to determine the shape of many proteins more rapidly, thereby greatly accelerating the pace of biomedical research.Read moreRead less
GENOMIC/PHENOMIC IDENTIFICATION AND CHARACTERISATION OF NOVEL HEMATOPOIETIC REGULATORS. Blood cells are fundamental to health. They play a vital role in maintaining the condition of tissues and organs, fight infections and are essential players in the body's response to injury. Understanding how blood cells are produced and how they function is critical to improving the treatment of disease. With the sequencing of the genome, we now have the tools we need to find the genes controlling these proc ....GENOMIC/PHENOMIC IDENTIFICATION AND CHARACTERISATION OF NOVEL HEMATOPOIETIC REGULATORS. Blood cells are fundamental to health. They play a vital role in maintaining the condition of tissues and organs, fight infections and are essential players in the body's response to injury. Understanding how blood cells are produced and how they function is critical to improving the treatment of disease. With the sequencing of the genome, we now have the tools we need to find the genes controlling these processes. This project will harness the power of modern genetic technologies to dissect the role of novel genes involved in blood cell formation and function, and will open up new therapeutic opportunities for treating the many diseases associated with dysregulation of this important cell system. Read moreRead less