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Developing novel chemistries for removing environmental surface biofilms to reduce hospital acquired infections. This project will develop new detergents that more efficiently clean hospitals. This will increase hospital safety by decreasing infections, thus saving lives and healthcare costs.
Mycobacterial Cholesterol Degradation: A Unique Metabolic Weakness? This project aims to understand the use of the steroid cholesterol as a source of essential metabolic building blocks by bacteria. Cholesterol utilisation is a key feature of many bacterial pathogens which have evolved to survive in niche environments. By understanding the initial step in cholesterol degradation and the bioinorganic and bioorganic chemistry of the metalloenzymes that catalyse it, this work aims to develop strate ....Mycobacterial Cholesterol Degradation: A Unique Metabolic Weakness? This project aims to understand the use of the steroid cholesterol as a source of essential metabolic building blocks by bacteria. Cholesterol utilisation is a key feature of many bacterial pathogens which have evolved to survive in niche environments. By understanding the initial step in cholesterol degradation and the bioinorganic and bioorganic chemistry of the metalloenzymes that catalyse it, this work aims to develop strategies to block this activity. This will turn a key strength of these bacteria into a potent weakness and will generate the proof of principle and knowledge required for the future development of effective strategies to combat pathogenic bacteria.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100513
Funder
Australian Research Council
Funding Amount
$374,000.00
Summary
Advancing flow chemistry: towards total flow synthesis. Of all mankind's endeavors, the development and mass production of pharmaceuticals is arguably the most resource hungry and wasteful. This project aims to advance a branch of chemistry known as flow chemistry. This emerging technology has the potential to revolutionise pharmaceutical production by improving quality and reducing chemical waste.
Structure-based design of inhibitors of HIV-1 integrase. This project will produce compounds that block human immunodeficiency virus (HIV) replication. These compounds will benefit the 17000 Australians and more than 34 million people worldwide who are currently suffering with this terrible disease.
Novel Membrane-targeted Antibiotics Against Drug-resistant Gram-positive Bacterial Infections
Funder
National Health and Medical Research Council
Funding Amount
$1,351,496.00
Summary
This project aims to develop a best in class antibiotic, Vancapticin, with superior efficacy, broader spectra of action and improved therapeutic index than existing therapies for Gram-positive (G+ve) bacterial infections. The research team has identified lead candidates that offer equivalent &/or superior potency, efficacy & pharmacokinetic profiles compared to several clinical comparators. NHMRC Development funding is required to select a candidate for an Investigative New Drug application.
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
Novel click assembled drug-polymer conjugates as next generation drug delivery systems. The purpose of the project is to develop previously inaccessible drug-polymer conjugates with tuneable and sustained drug release rates via a novel polymerisation approach. Ultimately, this will afford next-generation polymer therapeutics suitable for the treatment of a range of disorders and diseases, leading to improvements in heath care.
Downsizing proteins to equipotent small molecules that activate cells. The project aims to downsize large, expensive, naturally occurring proteins to small, cheap, synthetic organic compounds engineered to have the same functions. If the methods are generally applicable for different proteins, they could be used to create new pharmaceuticals, diagnostics, flavours, perfumes, catalysts and industrial materials.
Chemical probes for visualising DNA synthesis. This project aims to develop chemical probes to quantify DNA synthesis in complex mammalian and parasite cellular systems in conjunction with image-based technologies. Chemical probes are small molecule reagents that have a profound impact on our ability to answer fundamental questions about biological processes within living cells. The probes will be differentiated from current probes that are toxic or incompatible with state-of-the art imaging. Th ....Chemical probes for visualising DNA synthesis. This project aims to develop chemical probes to quantify DNA synthesis in complex mammalian and parasite cellular systems in conjunction with image-based technologies. Chemical probes are small molecule reagents that have a profound impact on our ability to answer fundamental questions about biological processes within living cells. The probes will be differentiated from current probes that are toxic or incompatible with state-of-the art imaging. The project expects to generate intellectual property with potential for development into commercial products that allow researchers expanded opportunities to study complex biological processes.Read moreRead less