Taking nature's lead in the development of new and improved enzyme inhibitors. This project will address some key fundamental issues associated with advancing a chemical entity from proof of principle through to a new pharmaceutical. The compounds in the study target cancer, cataract and other diseases that are confronting Australia's ageing population.
Heparan sulphate mimetics: Versatile tools for chemical biology. This project aims to develop chemical tools to study heparan sulphate-binding proteins. Heparan sulphate is a complex polysaccharide that is ubiquitously expressed on mammalian cells and interacts with proteins to mediate numerous biological and pathological functions. These interactions are poorly understood. This project will use homogeneous, structurally defined compounds to study heparan sulphate and its binding partners in bio ....Heparan sulphate mimetics: Versatile tools for chemical biology. This project aims to develop chemical tools to study heparan sulphate-binding proteins. Heparan sulphate is a complex polysaccharide that is ubiquitously expressed on mammalian cells and interacts with proteins to mediate numerous biological and pathological functions. These interactions are poorly understood. This project will use homogeneous, structurally defined compounds to study heparan sulphate and its binding partners in biology. This is expected to lead to a better, molecular-level understanding of these fundamental processes, and may have future applications in biotechnology and drug development.Read moreRead less
Opening Up Access to L-Sugars through a Synergy of Experiment and Theory. This project aims to address a major bottleneck in the science of carbohydrates by developing the first broad-scope synthetic routes to L-sugars. L-sugars are critical components of many biologically and commercially significant molecules, but knowledge of their functional roles is impeded by the fact that most L-sugars are expensive or difficult to make. This project expects to develop expeditious routes to L-sugars via a ....Opening Up Access to L-Sugars through a Synergy of Experiment and Theory. This project aims to address a major bottleneck in the science of carbohydrates by developing the first broad-scope synthetic routes to L-sugars. L-sugars are critical components of many biologically and commercially significant molecules, but knowledge of their functional roles is impeded by the fact that most L-sugars are expensive or difficult to make. This project expects to develop expeditious routes to L-sugars via an innovative combination of synthetic and theoretical chemistry. Expected outcomes include a markedly increased capacity to access pure samples of L-sugar-based biomolecules, as needed for studying their biological functions. Significant benefits in the development of vaccines, diagnostics and biomaterials are anticipated.Read moreRead less
New peptide ligation technology for the rapid assembly of modified proteins. The project aims to develop novel technologies to enable the synthesis of modified proteins that are of widespread biological and therapeutic interest. More than 70 per cent of all human proteins are modified with a range of functionalities after translation from the ribosome. Although these modifications are of crucial importance for biological activity, characterising the effect of a given modification on function is ....New peptide ligation technology for the rapid assembly of modified proteins. The project aims to develop novel technologies to enable the synthesis of modified proteins that are of widespread biological and therapeutic interest. More than 70 per cent of all human proteins are modified with a range of functionalities after translation from the ribosome. Although these modifications are of crucial importance for biological activity, characterising the effect of a given modification on function is difficult due to problems in obtaining the protein in pure form. The goal of this project is to develop a peptide ligation methodology to access pure modified proteins in a rapid manner through the exploitation of a new reaction recently discovered in our laboratory. The project plans to explore the scope and mechanism of the new reaction as well as its application in the total chemical synthesis and structure-function studies of important modified proteins.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100050
Funder
Australian Research Council
Funding Amount
$744,100.00
Summary
New South Wales molecular analysis platform: Fourier transform ion cyclotron resonance mass spectrometer and CHN&S analyser. This project aims to provide critical infrastructure for research in the molecular sciences by providing state of the art mass spectrometry and elemental analysis instrumentation. The project will support research for over 100 groups in New South Wales (NSW) and will lead to new knowledge in a variety of areas. Expected outcomes include enhanced capacity and productivity, ....New South Wales molecular analysis platform: Fourier transform ion cyclotron resonance mass spectrometer and CHN&S analyser. This project aims to provide critical infrastructure for research in the molecular sciences by providing state of the art mass spectrometry and elemental analysis instrumentation. The project will support research for over 100 groups in New South Wales (NSW) and will lead to new knowledge in a variety of areas. Expected outcomes include enhanced capacity and productivity, new interdisciplinary collaborations and the discovery of novel materials and bioactive molecules, leading to wealth creation. The significant benefits of the NSW molecular analysis platform will include the ability to rapidly analyse molecules with the highest certainty, and will enhance the impact of Australian research via access to new technologies.Read moreRead less
New methods for the chemical synthesis of a library of glycopeptide-based tri-component cancer vaccines. A novel method for the synthesis of tumour-associated glycopeptides will be developed in this research as well as the preparation of a library of glycopeptide-based cancer vaccines. These vaccines will be tested in immunological studies with a view to elucidating new immune-based therapies for the treatment of cancer.
Fine-tuning the conformations of cyclic peptides: a paradigm for optimising synthetic efficiency and biological activity. This proposal develops a strategy for optimising the synthesis and properties of an important class of drug molecules known as cyclic peptides. Such molecules show great promise as therapeutic agents, but they can be very difficult to synthesise and their three-dimensional shapes can be difficult to control. This project simultaneously addresses both of these problems, by exp ....Fine-tuning the conformations of cyclic peptides: a paradigm for optimising synthetic efficiency and biological activity. This proposal develops a strategy for optimising the synthesis and properties of an important class of drug molecules known as cyclic peptides. Such molecules show great promise as therapeutic agents, but they can be very difficult to synthesise and their three-dimensional shapes can be difficult to control. This project simultaneously addresses both of these problems, by exploiting a series of unusual amino acid building blocks that have a variety of shapes and different levels of conformational flexibility. This strategy will enable the development of a wide variety of therapeutically-relevant cyclic peptides, and to exemplify this concept a panel of cyclic peptides will be created that are specifically targeted for activity against solid tumours.Read moreRead less
Total Synthesis of Myxobacteria Metabolites and Analogues. This project will investigate the total chemical synthesis of complex myxobacteria metabolites. In addition, the synthesis of new analogues of some of these natural products will also be investigated. The project endeavours to develop new methods for chemical synthesis and also to produce new therapeutic products which may possess greater efficacy and superior biological activities than the natural compounds. Most significantly, this pro ....Total Synthesis of Myxobacteria Metabolites and Analogues. This project will investigate the total chemical synthesis of complex myxobacteria metabolites. In addition, the synthesis of new analogues of some of these natural products will also be investigated. The project endeavours to develop new methods for chemical synthesis and also to produce new therapeutic products which may possess greater efficacy and superior biological activities than the natural compounds. Most significantly, this project will deliver natural and new compounds for analysis of anti-cancer activity. The rewards of the development of new synthetic methods are enormous for the community and in the education of our scientists.Read moreRead less
Harnessing molecular strain for drug discovery and bioconjugation. Peptides and proteins are increasingly important therapies for the treatment of disease. Nevertheless, the synthesis and optimisation of these high-value compounds still relies primarily on technologies developed decades ago. There is a desperate need for modern strategies to unlock the full potential of peptides and proteins for diverse applications in drug discovery. This interdisciplinary research aims to develop new tools for ....Harnessing molecular strain for drug discovery and bioconjugation. Peptides and proteins are increasingly important therapies for the treatment of disease. Nevertheless, the synthesis and optimisation of these high-value compounds still relies primarily on technologies developed decades ago. There is a desperate need for modern strategies to unlock the full potential of peptides and proteins for diverse applications in drug discovery. This interdisciplinary research aims to develop new tools for the construction and modification of peptides and proteins by harnessing the energy in a unique class of strained molecules. A focus on peptide-based inhibitors of the proteasome, a critical target for modern cancer treatments, should provide future health and economic benefits for the Australian community.Read moreRead less
Pushing The Boundaries Of Flow Chemistry – Towards New Anti-Viral Agents. Synthetic chemistry approaches to new drugs rely on access to robust reliable reactions. Traditionally these approaches are highly wasteful with the pharmaceutical industries producing five to a hundred kilograms of waste per kilogram of product. Total flow chemistry approaches will significantly reduce waste, allow rapid reaction sequence optimisation, and seamless scale up. In a collaborative effort spanning Australia, G ....Pushing The Boundaries Of Flow Chemistry – Towards New Anti-Viral Agents. Synthetic chemistry approaches to new drugs rely on access to robust reliable reactions. Traditionally these approaches are highly wasteful with the pharmaceutical industries producing five to a hundred kilograms of waste per kilogram of product. Total flow chemistry approaches will significantly reduce waste, allow rapid reaction sequence optimisation, and seamless scale up. In a collaborative effort spanning Australia, Germany and the USA, in an exemplar of a real world application, this project will produce benefits not only in enhanced and greener synthetic approaches, but also in the development of strategies for the identification of small molecules, the precursors to a new mode of action class of anti-viral drugs.Read moreRead less