Discovery And Exploitation Of Novel Biophysical Methods For Charcterising Molecular Pathways Invld In Disease Progression
Funder
National Health and Medical Research Council
Funding Amount
$4,000,000.00
Summary
Dr Cooper has conducted groundbreaking research into the progression and spread of antibiotic-resistant bacterial pathogens. Utilising a strongly multidisciplinary approach, he will use his Fellowship to expand upon this research in the area of antibiotic resistance and will supplement this focus with research into biofilms formed by bacterial pathogens on medical implants, cannulas and catheters. Dr Cooper’s Australia Fellowship will also assist his research into the changes that occur in cells ....Dr Cooper has conducted groundbreaking research into the progression and spread of antibiotic-resistant bacterial pathogens. Utilising a strongly multidisciplinary approach, he will use his Fellowship to expand upon this research in the area of antibiotic resistance and will supplement this focus with research into biofilms formed by bacterial pathogens on medical implants, cannulas and catheters. Dr Cooper’s Australia Fellowship will also assist his research into the changes that occur in cells during the initiation and evolution of cancer.Read moreRead less
Understanding The Link Between Mitochondrial Biogenesis And Disease
Funder
National Health and Medical Research Council
Funding Amount
$421,055.00
Summary
As the predominate energy producers of our cells, mitochondria are implicated in a variety of diseases. To function properly, these dynamic organelles rely on protein components that regulate their structure and distribution throughout the cell. My work aims to expand our knowledge of the way these components control mitochondrial shape and trafficking. By understanding the correlation between mitochondrial morphology and function, we will gain insight into related diseases.
Progenitor cells within the peritoneal cavity. Implantation of a foreign object into the peritoneal cavity of animals recruits undifferentiated cells of bone marrow origin that encapsulate the free-floating object, then differentiate into myofibroblasts. When large pieces of myofibroblast capsule tissue are subsequently grafted into autologous artery, bladder or vas deferens, they develop the structure and morphology of that organ. We hypothesise that multipotent progenitor cells sequestered t ....Progenitor cells within the peritoneal cavity. Implantation of a foreign object into the peritoneal cavity of animals recruits undifferentiated cells of bone marrow origin that encapsulate the free-floating object, then differentiate into myofibroblasts. When large pieces of myofibroblast capsule tissue are subsequently grafted into autologous artery, bladder or vas deferens, they develop the structure and morphology of that organ. We hypothesise that multipotent progenitor cells sequestered to the peritoneal cavity can be manipulated to differentiate along smooth muscle and other pathways. The proposed project aims to identify the origin of these cells and characterise the transcriptional program that regulates their differentiation.Read moreRead less
A proteomic approach to the identification of novel targets for allergy treatment. Eosinophils are involved in parasite immunity and in the pathology of allergic diseases including asthma. Eosinophil recruitment and activation is critical to their functional activity, but the relevant molecular mechanisms have not been fully elucidated. In the present proposal, a unique resource of eosinophils, at different stages of recruitment and activation, will be used for detailed proteomic analysis to ide ....A proteomic approach to the identification of novel targets for allergy treatment. Eosinophils are involved in parasite immunity and in the pathology of allergic diseases including asthma. Eosinophil recruitment and activation is critical to their functional activity, but the relevant molecular mechanisms have not been fully elucidated. In the present proposal, a unique resource of eosinophils, at different stages of recruitment and activation, will be used for detailed proteomic analysis to identify molecules and molecular pathways involved in eosinophil migration and activation. These studies may lead to novel anti-inflammatory strategies and more targeted drug treatments that will generate significant intellectual property and be of enormous benefit to allergy patients worldwide.Read moreRead less
Accelerating the genetic improvement of grain legumes for Australia by developing doubled haploid technology for field pea and chickpea. Doubled haploid technology is used in many broad acre crop species to accelerate cultivar development and create homozygous populations for genetic mapping. Field pea and chickpea have been unresponsive to this technique but a recent breakthrough by UWA researchers has resulted in haploid pro-embryos from in vitro cultured immature pollen. A barrier to further ....Accelerating the genetic improvement of grain legumes for Australia by developing doubled haploid technology for field pea and chickpea. Doubled haploid technology is used in many broad acre crop species to accelerate cultivar development and create homozygous populations for genetic mapping. Field pea and chickpea have been unresponsive to this technique but a recent breakthrough by UWA researchers has resulted in haploid pro-embryos from in vitro cultured immature pollen. A barrier to further embryo maturation has been identified, which we propose to overcome using powerful microscopy tools to elucidate haploid embryology processes. This information will be applied to develop world-first in vitro doubled haploid protocols for these species, which will facilitate the development and accelerated delivery to industry of better adapted, high yielding cultivars.Read moreRead less
Proteomic analysis of subcellular changes during apoptosis. This project aims to use a novel proteomic approach to examine mechanisms of apoptosis at the level of the plasma membrane, mitochondrion, nucleus and cytosol, screening protein extracts of cell organelles by the new technique of SELDI-TOF mass spectrometry in which proteins are adsorbed onto activated chips. This will provide protein mass profiles characteristic of various stages of apoptosis, and will allow identification of proteins ....Proteomic analysis of subcellular changes during apoptosis. This project aims to use a novel proteomic approach to examine mechanisms of apoptosis at the level of the plasma membrane, mitochondrion, nucleus and cytosol, screening protein extracts of cell organelles by the new technique of SELDI-TOF mass spectrometry in which proteins are adsorbed onto activated chips. This will provide protein mass profiles characteristic of various stages of apoptosis, and will allow identification of proteins of interest by conventional proteomic methods. The establishment of SELDI-MS as a viable tool for cell proteomics would open new opportunities to understand a broad range of cellular functions at the level of protein expression.Read moreRead less