Protein-protein interactions in amyloid deposits. The aggregation of specific proteins to form insoluble amyloid fibrils is characteristic of several age-related diseases such as type-II diabetes, Alzheimer's disease and Parkinson's disease. In vivo amyloid deposits also contain three prominent non-fibrillar protein components, namely serum amyloid P component, apolipoprotein E and alpha1-antichymotrypsin. These non-fibrillar amyloid components bind to a wide variety of amyloid fibrils, irresp ....Protein-protein interactions in amyloid deposits. The aggregation of specific proteins to form insoluble amyloid fibrils is characteristic of several age-related diseases such as type-II diabetes, Alzheimer's disease and Parkinson's disease. In vivo amyloid deposits also contain three prominent non-fibrillar protein components, namely serum amyloid P component, apolipoprotein E and alpha1-antichymotrypsin. These non-fibrillar amyloid components bind to a wide variety of amyloid fibrils, irrespective of the nature of the protein constituent. This proposal is to identify the structural basis for this recognition process, the capacity of non-fibrillar components to cross-link amyloid fibrils to form networks and the influence of these interactions on amyloid fibril cytotoxicity.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100081
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Combined scanning tunnelling microscope system for materials characterisation and manipulation at nano scale. The proposed facility is unique in Australia and will substantially enhance national research capabilities in nano-materials, nanotechnology and biotechnology. The proposed infrastructure project will bring more than 20 leading Australian research groups from 10 institutions together to create an outstanding platform to underpin close collaborations among members in a broad field. The pr ....Combined scanning tunnelling microscope system for materials characterisation and manipulation at nano scale. The proposed facility is unique in Australia and will substantially enhance national research capabilities in nano-materials, nanotechnology and biotechnology. The proposed infrastructure project will bring more than 20 leading Australian research groups from 10 institutions together to create an outstanding platform to underpin close collaborations among members in a broad field. The proposed facility will provide significant benefits to Australian researchers in drug design and delivery, nano-material design and characterisation at nano scale for advanced materials, and promotion of renewable energy. This represents a great opportunity to make discoveries and breakthroughs in frontier science and technology in Australia.Read moreRead less
Structure and dynamics of a multiprotein-mRNA complex involved in the regulation of gene expression. RNA/protein interactions are now recognised as a major control point in the regulation of gene-expression. Proteins such as HuR and the poly(C)-binding proteins (PCBPs) act to stabilise and transport specific messenger (m)RNAs, and thus determine their translation levels. In contrast to such an important function, very little is known about these protein/mRNA interactions at an atomic level. The ....Structure and dynamics of a multiprotein-mRNA complex involved in the regulation of gene expression. RNA/protein interactions are now recognised as a major control point in the regulation of gene-expression. Proteins such as HuR and the poly(C)-binding proteins (PCBPs) act to stabilise and transport specific messenger (m)RNAs, and thus determine their translation levels. In contrast to such an important function, very little is known about these protein/mRNA interactions at an atomic level. The current study will investigate the structural and biophysical properties of a recently discovered HuR/PCBP/mRNA complex implicated in the regulation of androgen receptor expression. This information has the potential to assist in the development of drugs to reduce AR expression in prostate cancer.Read moreRead less
Exploiting the self-assembly of hydrophobin proteins to engineer functional nanostructuring surfaces. There is an increasing world-wide demand for advanced nano-biomaterials with novel properties. We will use natural hydrophobin proteins to coat nanodevices and make them more compatible with biological systems. Hydrophobin coatings will be applicable to biosensors, medical devices, diagnostics and drug delivery systems. The research will lead to an understanding of the basic mechanisms of protei ....Exploiting the self-assembly of hydrophobin proteins to engineer functional nanostructuring surfaces. There is an increasing world-wide demand for advanced nano-biomaterials with novel properties. We will use natural hydrophobin proteins to coat nanodevices and make them more compatible with biological systems. Hydrophobin coatings will be applicable to biosensors, medical devices, diagnostics and drug delivery systems. The research will lead to an understanding of the basic mechanisms of protein self-assembly and will have application outcomes that contribute to Australia being an important player in the field of nanotechnology. This is critical for Australia's long term competitiveness and productivity in and beyond the 21st century.Read moreRead less
Novel Scanning Electrochemical Microscopy applications in molecular, supramolecular electrochemistry and biological systems. Improved understanding of chemical reactivity in natural and artificial molecular systems and acquisition of a wider perspective of electron transfer processes are two important challenges in chemistry and biology. Through this well defined research project, the CI, jointly with the host facility, has the skills to achieve valuable new insights. This project will expand Au ....Novel Scanning Electrochemical Microscopy applications in molecular, supramolecular electrochemistry and biological systems. Improved understanding of chemical reactivity in natural and artificial molecular systems and acquisition of a wider perspective of electron transfer processes are two important challenges in chemistry and biology. Through this well defined research project, the CI, jointly with the host facility, has the skills to achieve valuable new insights. This project will expand Australia's knowledge base and research capability and open new scenarios for frontier technologies and advanced materials. This project will introduce the SECM methods into Australia. The foreseen benefits include technology exchange and contribution to fundamental and applied science.Read moreRead less
Synthesis and Functionalisation of Advanced Polymer Films and Particles. Scientific and technological advances at the frontiers of nano- and biotechnology are poised to revolutionise the scope of treatment and healthcare options. This project will involve the synthesis of engineered polymer building blocks with the capability for multifunctional and intelligent response. These smart polymers will then be assembled into responsive nanostructured materials for drug delivery and biosensing applica ....Synthesis and Functionalisation of Advanced Polymer Films and Particles. Scientific and technological advances at the frontiers of nano- and biotechnology are poised to revolutionise the scope of treatment and healthcare options. This project will involve the synthesis of engineered polymer building blocks with the capability for multifunctional and intelligent response. These smart polymers will then be assembled into responsive nanostructured materials for drug delivery and biosensing applications. These materials are expected to have health benefits for Australian citizens and will contribute to a world-leading nanobiotechnology industry. The project will also provide development opportunities for young scientists and will also foster multidisciplinary collaborations within both Australia and abroad.Read moreRead less
Arsenite oxidation by a novel bacterium that is a candidate for arsenic bioremediation. The arsenic munching microbe NT-26 could help in the fight to clean up arsenic-contaminated mining waste and drinking water. Arsenic poses an environmental problem in countries such as Australia, USA and Canada owing primarily to mining activities. The problem in countries such as Bangladesh and West Bengal are even more serious as these people are dying of arsenic-related diseases as they rely on water conta ....Arsenite oxidation by a novel bacterium that is a candidate for arsenic bioremediation. The arsenic munching microbe NT-26 could help in the fight to clean up arsenic-contaminated mining waste and drinking water. Arsenic poses an environmental problem in countries such as Australia, USA and Canada owing primarily to mining activities. The problem in countries such as Bangladesh and West Bengal are even more serious as these people are dying of arsenic-related diseases as they rely on water containing arsenic as their primary source of drinking water. The outcomes of this research should provide the necessary information for removing arsenic from all types of waters.Read moreRead less
3D analysis of facial features for proof of identity across Australia's ethnically diverse population. The forensic sciences concerned with establishing Human identity play a vital role in safeguarding Australia. Certainty in Human identification is required by police and intelligence agencies because knowing the identity of perpetrators (or potential perpetrators) of crime allows effective preventative intervention. This is particularly important during surveillance operations and in the contex ....3D analysis of facial features for proof of identity across Australia's ethnically diverse population. The forensic sciences concerned with establishing Human identity play a vital role in safeguarding Australia. Certainty in Human identification is required by police and intelligence agencies because knowing the identity of perpetrators (or potential perpetrators) of crime allows effective preventative intervention. This is particularly important during surveillance operations and in the context of border protection. When crime has already been committed, the identification of victims and perpetrators is important for the exoneration of the innocent and successful prosecution of the guilty. The full utilisation of 3D morphometric analysis of faces will provide criteria robust enough for legal proof of identity. Read moreRead less
Protein-mRNA interactions and their role in post-transcriptional regulation. The research outcomes will be of fundamental importance in the field of gene regulation, and as such will result in publications in high-profile international journals and continue to contribute to Australia's outstanding international reputation in biological research. Students and research associates that have the opportunity to work on this project will be trained in the use of state-of-the art technologies in bioche ....Protein-mRNA interactions and their role in post-transcriptional regulation. The research outcomes will be of fundamental importance in the field of gene regulation, and as such will result in publications in high-profile international journals and continue to contribute to Australia's outstanding international reputation in biological research. Students and research associates that have the opportunity to work on this project will be trained in the use of state-of-the art technologies in biochemistry, scientific rigour and presentation skills and thus contribute to the quality of our national workforce. Furthermore, applications that arise from this work will contribute to Australia's intellectual property and future development of biotechnological industry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560672
Funder
Australian Research Council
Funding Amount
$202,705.00
Summary
Ultrafast laser facility for chemical, biological and physical investigations of advanced materials. Ultrafast laser techniques are becoming indispensable in many diverse scientific disciplines. Within the Australian scientific community, there is a great need for enhanced access to sophisticated ultrafast laser instrumentation. The expansion to the femtosecond laser facility through the addition of state-of-the-art laser devices, will enable novel laser spectroscopy measurements and advanced op ....Ultrafast laser facility for chemical, biological and physical investigations of advanced materials. Ultrafast laser techniques are becoming indispensable in many diverse scientific disciplines. Within the Australian scientific community, there is a great need for enhanced access to sophisticated ultrafast laser instrumentation. The expansion to the femtosecond laser facility through the addition of state-of-the-art laser devices, will enable novel laser spectroscopy measurements and advanced optical microscopy techniques to be applied to investigations of advanced materials and biological systems. Access to such instrumentation is crucial to fields including photoluminescent conductive polymers, nanoparticles, engineered supramolecules for artificial photosynthetic systems, and photoactivated therapy and drug delivery/release technology.Read moreRead less