Decoding the molecular components of aquatic parasite-host interactions. This project aims to further understand the molecular components that regulate aquatic host-parasite interactions which contributes to many diseases worldwide. Aquatic parasites rely on chemical cues to locate and infect their host. This project will target the aquatic host-parasite interaction to decipher these chemical cues, so that future tools may be developed to suppress this interplay. This project expects to contribu ....Decoding the molecular components of aquatic parasite-host interactions. This project aims to further understand the molecular components that regulate aquatic host-parasite interactions which contributes to many diseases worldwide. Aquatic parasites rely on chemical cues to locate and infect their host. This project will target the aquatic host-parasite interaction to decipher these chemical cues, so that future tools may be developed to suppress this interplay. This project expects to contribute imperative basic knowledge for the future control of the intestinal parasite disease, Schistosomiasis, a devastating tropical disease.Read moreRead less
Autocyclases: A new class of self-cyclising proteins. The biotechnology sector is emerging as an important economic strength in Australia. While the improved efficacy and selectivity of biomolecules has seen them emerge as alternatives to existing chemicals in health and agriculture, the stability of biomolecules remains a major limiting factor. A general strategy for improving protein stability is by joining the ends of the peptide chain in a cyclisation reaction. While a wide range of cyclic p ....Autocyclases: A new class of self-cyclising proteins. The biotechnology sector is emerging as an important economic strength in Australia. While the improved efficacy and selectivity of biomolecules has seen them emerge as alternatives to existing chemicals in health and agriculture, the stability of biomolecules remains a major limiting factor. A general strategy for improving protein stability is by joining the ends of the peptide chain in a cyclisation reaction. While a wide range of cyclic peptides and proteins are being developed in Australia and around the world, the cyclisation reaction presents a significant challenge. In this proposal we detail a novel method for protein cyclisation as a general, low-cost and green production method for making a diverse range of biomolecules. Read moreRead less
Gain from pain: new tools from venomous animals for exploring pain pathways. This project aims to explore animal venoms for new pain-causing toxins, to determine their structure and mechanism of action. Many venomous animals use their venom defensively and envenomation is frequently associated with rapid and often excruciating pain. In most cases the molecular mechanisms by which they achieve this is unknown. Using biochemical, pharmacological and biophysical techniques, this project expects to ....Gain from pain: new tools from venomous animals for exploring pain pathways. This project aims to explore animal venoms for new pain-causing toxins, to determine their structure and mechanism of action. Many venomous animals use their venom defensively and envenomation is frequently associated with rapid and often excruciating pain. In most cases the molecular mechanisms by which they achieve this is unknown. Using biochemical, pharmacological and biophysical techniques, this project expects to uncover toxins that employ new mechanisms of pain signalling, leading to new insights into pain physiology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668382
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
e-Research Infrastructure for the Molecular and Materials Structure Sciences. Understanding molecular and materials structure in atomic detail is vital to a knowledge-based economy and a healthy society. The development of smart materials, nanotechnological devices, hydrogen storage materials, molecular switches, magnets and sensors, for example, depends on knowledge of three-dimensional atomic structure. Cures for illnesses such as SARS, AIDS and Alzheimer's disease and understanding the aging ....e-Research Infrastructure for the Molecular and Materials Structure Sciences. Understanding molecular and materials structure in atomic detail is vital to a knowledge-based economy and a healthy society. The development of smart materials, nanotechnological devices, hydrogen storage materials, molecular switches, magnets and sensors, for example, depends on knowledge of three-dimensional atomic structure. Cures for illnesses such as SARS, AIDS and Alzheimer's disease and understanding the aging process depends on knowledge of biomolecular structure. The deployment and development of automation-enhanced remote access to structural instruments through the web will greatly enhance Australian structure-based research, and make this science accessible to the public. Read moreRead less
Identification of novel biomarkers in tears for prostate cancer diagnosis and prognosis. The purpose of this study is to identify novel biomarkers in the tears of patients with CaP. The use of the several techniques will increase the chance of success and enable us to find more diagnostic markers. If successful, the identified proteins may be used to diagnose and determine the stage of cancer. This will help guide clinicians in choosing the best treatment methods for an individual patient. The m ....Identification of novel biomarkers in tears for prostate cancer diagnosis and prognosis. The purpose of this study is to identify novel biomarkers in the tears of patients with CaP. The use of the several techniques will increase the chance of success and enable us to find more diagnostic markers. If successful, the identified proteins may be used to diagnose and determine the stage of cancer. This will help guide clinicians in choosing the best treatment methods for an individual patient. The markers may also be used to monitor the disease progress and the effects of treatment. The results from this study may improve the prognosis of CaP patients.Read moreRead less
Development of a non-invasive diagnostic test of Embryo Viability. A successful outcome will:
. improve the cost effectiveness of assisted reproductive technologies resulting in reduced health care costs and allowing greater use of ART in animal production
. by greater cost-effectiveness, facilitate greater access to these advanced technologies in less well developed economies
. build the national capacity in development and validation of biotech diagnostics
. build collaborative relationsh ....Development of a non-invasive diagnostic test of Embryo Viability. A successful outcome will:
. improve the cost effectiveness of assisted reproductive technologies resulting in reduced health care costs and allowing greater use of ART in animal production
. by greater cost-effectiveness, facilitate greater access to these advanced technologies in less well developed economies
. build the national capacity in development and validation of biotech diagnostics
. build collaborative relationship between the CI, University of Sydney and a leading industry partner (Cook Australia)
. lead to significant new fundamental knowledge in embryology that will be of major International significance
Read moreRead less
DEVELOPMENT OF A NOVEL BIOMATERIAL FOR BONE TISSUE ENGINEERING. Tissue engineering of bone is emerging as a viable therapy for treating large defects in load-bearing bone. We wish to develop methods for combining novel heparan sulphate molecules (known to deliver growth factors to cell surfaces and thereby cause changes in bone cell phenotype) with load-bearing, macro-porous, biodegradable mineral/polymer biomaterials. Through the study of release profiles, protein adsorption and cell responses ....DEVELOPMENT OF A NOVEL BIOMATERIAL FOR BONE TISSUE ENGINEERING. Tissue engineering of bone is emerging as a viable therapy for treating large defects in load-bearing bone. We wish to develop methods for combining novel heparan sulphate molecules (known to deliver growth factors to cell surfaces and thereby cause changes in bone cell phenotype) with load-bearing, macro-porous, biodegradable mineral/polymer biomaterials. Through the study of release profiles, protein adsorption and cell responses to these derivatised biomaterials, a novel approach to bone replacement materials can be developed.Read moreRead less
Understanding the mechanisms of peptide cyclisation. This project aims to identify, study, engineer and apply a new class of biocatalysts (called asparaginyl endopeptidase enzymes) as versatile tools for manufacturing of advanced therapeutics and bio-insecticides. The expected outcomes include fundamental new knowledge on the mechanism of action of these catalysts, an expanded toolbox for precision engineering of biomolecules and new strategies for production of high-value pharmaceuticals and cr ....Understanding the mechanisms of peptide cyclisation. This project aims to identify, study, engineer and apply a new class of biocatalysts (called asparaginyl endopeptidase enzymes) as versatile tools for manufacturing of advanced therapeutics and bio-insecticides. The expected outcomes include fundamental new knowledge on the mechanism of action of these catalysts, an expanded toolbox for precision engineering of biomolecules and new strategies for production of high-value pharmaceuticals and crop protecting agents. The project is significant because it will contribute to high value biotechnology and agricultural industries in Australia, with the potential for economic, environmental, training and societal benefits.Read moreRead less