Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561203
Funder
Australian Research Council
Funding Amount
$110,000.00
Summary
Microwave Assisted Chemistry - new approaches to molecular diversity. This project will support the establishment of a multi-user, fully automated microwave reactor facility that will be the first of its kind in an academic laboratory in Australia. The equipment will support a wide range of synthetic chemistry research by providing microwave acceleration to otherwise slow reactions and in some cases promotion of reactions that do not normally proceed under conventional conditions. The automation ....Microwave Assisted Chemistry - new approaches to molecular diversity. This project will support the establishment of a multi-user, fully automated microwave reactor facility that will be the first of its kind in an academic laboratory in Australia. The equipment will support a wide range of synthetic chemistry research by providing microwave acceleration to otherwise slow reactions and in some cases promotion of reactions that do not normally proceed under conventional conditions. The automation capability will be used to create diverse compound libraries and to investigate and optimise reaction conditions.Read moreRead less
Platform Technologies for the Regulation of Peptide Hormones. Research in the field of this application is expected to contribute to the social and economic welfare of Australians. It is anticipated that a platform of technologies will be developed, for the treatment of human and animal disorders associated with imbalances in levels of peptide hormones. This will provide better therapies to improve human and animal health. Related potential applications include the development of more effective ....Platform Technologies for the Regulation of Peptide Hormones. Research in the field of this application is expected to contribute to the social and economic welfare of Australians. It is anticipated that a platform of technologies will be developed, for the treatment of human and animal disorders associated with imbalances in levels of peptide hormones. This will provide better therapies to improve human and animal health. Related potential applications include the development of more effective insecticides. The range of new materials and protocols that will result from the research will be suitable for commercial exploitation. Particular benefit to Australians will result from the research being carried out locally, where the intellectual property and expertise will be developed and maintained.Read moreRead less
Amino Acid and Peptide Radicals in Biochemistry and Synthesis. The aim of this research is to develop a better fundamental understanding of biochemical free radical reactions of peptides and proteins, particularly those involving superoxide radical anion and thiols, and peptide radicals in enzyme-catalysed reactions. Knowledge gained through this work will be used in the synthesis of physiologically active amino acids and peptides, as well as to establish ways to regulate biochemical free radic ....Amino Acid and Peptide Radicals in Biochemistry and Synthesis. The aim of this research is to develop a better fundamental understanding of biochemical free radical reactions of peptides and proteins, particularly those involving superoxide radical anion and thiols, and peptide radicals in enzyme-catalysed reactions. Knowledge gained through this work will be used in the synthesis of physiologically active amino acids and peptides, as well as to establish ways to regulate biochemical free radical processes. The ultimate goal of the research is to develop methods and pharmaceutical compounds to prevent and treat human disorders associated with these reactions, and to underpin commercial exploitation of peptide and protein biomaterials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989474
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Organic Synthesis and Reaction Processing Facility. Chemical synthesis is not only an important activity in its own right but one that provides compounds required in biology and physics. This enterprise is thus pivotal to many activities associated with a modern economy. Accordingly, it is vital to maintain a cutting-edge capacity in synthetic organic chemistry. The requested equipment will be assembled to create a state-of-the-art facility serving the needs of some sixty researchers engaged in ....Organic Synthesis and Reaction Processing Facility. Chemical synthesis is not only an important activity in its own right but one that provides compounds required in biology and physics. This enterprise is thus pivotal to many activities associated with a modern economy. Accordingly, it is vital to maintain a cutting-edge capacity in synthetic organic chemistry. The requested equipment will be assembled to create a state-of-the-art facility serving the needs of some sixty researchers engaged in diverse aspects of organic synthesis including those associated with the development of new antibiotics, drug delivery systems and molecular machines.Read moreRead less
Formation, structure and chemistry of non-covalent complexes of biomolecules via mass spectrometry. The studies proposed address fundamental issues which are essential to developments in biotechnology and related industries and of implication for human health and disease, with special attention to mechanisms of Deoxyribonucleic acid (DNA) damage, for example through Ultraviolet (UV) A and B. This has a special resonance for our sunburnt nation. The work, using world class Australian Research Cou ....Formation, structure and chemistry of non-covalent complexes of biomolecules via mass spectrometry. The studies proposed address fundamental issues which are essential to developments in biotechnology and related industries and of implication for human health and disease, with special attention to mechanisms of Deoxyribonucleic acid (DNA) damage, for example through Ultraviolet (UV) A and B. This has a special resonance for our sunburnt nation. The work, using world class Australian Research Council funded instrumentation, will carry out breakthrough science, exploiting and enhancing existing national strength in biological science with a strong interdisciplinary element. This project will also maintain and enhance Australia's international research profile through its novelty and new overseas collaborations. The project will equip talented young scientists with a spectrum of skills.Read moreRead less
Gas phase studies of the interactions of electrons with peptide ions: structure assignment and fundamentals. Electron-induced reactions are fundamental to a wide range of processes that underlie many areas of science and technology, ranging from planetary atmospheres, industrial plasmas to living tissues. Since ionizing radiation is believed to be a major cause of damage to living cells, understanding electron interactions with biological molecules is essential to predict the consequences of ex ....Gas phase studies of the interactions of electrons with peptide ions: structure assignment and fundamentals. Electron-induced reactions are fundamental to a wide range of processes that underlie many areas of science and technology, ranging from planetary atmospheres, industrial plasmas to living tissues. Since ionizing radiation is believed to be a major cause of damage to living cells, understanding electron interactions with biological molecules is essential to predict the consequences of exposure. Structure determination of biomolecules is at the heart of identifying, diagnosing and potentially developing treatments for diseases, and thus another important reason for studying these interactions is the potential to develop new mass spectrometry based analytical methods.Read moreRead less
SILICON BASED PHOTONIC CRYSTALS FOR MONITORING BIOMOLECULAR INTERACTIONS. Two great goals of biomolecular science are to monitor biomolecular interactions in real time and with sufficient sensitivity to allow small amounts of biological material to be investigated. The achievement of these goals is limited by the methods of transducing these reactions. The aim of this multidisciplinary proposal is to overcome this limitation by developing photonic devices that exploit the unique properties of na ....SILICON BASED PHOTONIC CRYSTALS FOR MONITORING BIOMOLECULAR INTERACTIONS. Two great goals of biomolecular science are to monitor biomolecular interactions in real time and with sufficient sensitivity to allow small amounts of biological material to be investigated. The achievement of these goals is limited by the methods of transducing these reactions. The aim of this multidisciplinary proposal is to overcome this limitation by developing photonic devices that exploit the unique properties of nanoporous silicon. The hybridisation of DNA will be used as a model biorecognition reaction. Potential applications of these photonic devices are as highly sensitive affinity sensors and as tools for investigating the kinetics of biomolecular interactions.Read moreRead less
Gas Phase Reactivity of Charged Peptide and DNA Radicals: Fundamentals and Applications. Radicals derived from the "molecules of life", proteins and DNA, play both beneficial (e.g. enzyme catalysis) and deleterious roles (e.g. protein and DNA damage associated with disease). Two electrospray ionisation mass spectrometry approaches have been discovered to generate charged radicals of related models systems (e.g. peptides and nucleobases). The gas phase chemistry of these species is a largely unch ....Gas Phase Reactivity of Charged Peptide and DNA Radicals: Fundamentals and Applications. Radicals derived from the "molecules of life", proteins and DNA, play both beneficial (e.g. enzyme catalysis) and deleterious roles (e.g. protein and DNA damage associated with disease). Two electrospray ionisation mass spectrometry approaches have been discovered to generate charged radicals of related models systems (e.g. peptides and nucleobases). The gas phase chemistry of these species is a largely unchartered area! We will examine the fundamental chemistry (unimolecular and bimolecular reactions) of these systems and build upon some exciting preliminary results which suggest potential applications (e.g. as a proteomics tool to sequence and distinguish between leucine and isoleucine residues in peptides).Read moreRead less