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Thioamide ligations: new technologies for peptide and protein synthesis. This project aims to develop novel amide-bond forming reactions for the chemical synthesis of peptides and proteins. New peptide ligation strategies, including an asparagine-based ligation and a residue-independent ligation will be developed that exploit the recent discovery of silver-promoted coupling reactions of thioamides. A novel late-stage, chemo-selective assembly of N-glycosylated asparagine residues in peptides and ....Thioamide ligations: new technologies for peptide and protein synthesis. This project aims to develop novel amide-bond forming reactions for the chemical synthesis of peptides and proteins. New peptide ligation strategies, including an asparagine-based ligation and a residue-independent ligation will be developed that exploit the recent discovery of silver-promoted coupling reactions of thioamides. A novel late-stage, chemo-selective assembly of N-glycosylated asparagine residues in peptides and proteins will also be developed. The outcomes of this research will lead to breakthroughs in synthetic methodologies for the assembly and functionalisation of peptides and proteins, thereby enabling access to a range of homogeneous, post translationally modified proteins though total chemical synthesis. These research outcomes will expand Australia's research capability and global competitiveness in the field of biotechnology, delivering significant benefits to the third largest manufacturing sector in Australia.Read moreRead less
Novel green scalable chemical peptide synthesis and enzyme immobilization. The Project aims to address the critical issue of developing green processes for the chemical production of peptides including on an industrial scale. It will use unique, biocompatible solid supports that have been invented by our partner SpheriTech Ltd together with other reagents to allow synthesis to be conducted in water rather than toxic organic solvents. Expected outcomes of the Project include an international part ....Novel green scalable chemical peptide synthesis and enzyme immobilization. The Project aims to address the critical issue of developing green processes for the chemical production of peptides including on an industrial scale. It will use unique, biocompatible solid supports that have been invented by our partner SpheriTech Ltd together with other reagents to allow synthesis to be conducted in water rather than toxic organic solvents. Expected outcomes of the Project include an international partnership in highly efficient environmentally-friendly assembly of peptides and of their analogues by both solid phase synthesis and immobilized enzyme-mediated ligation. The clear benefit will be the first novel, water-based, scalable green synthesis of peptides as biological probes and potential therapeutic agents.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
Molecular probe development for high specificity and spatiotemporal control. This project aims at developing next-generation molecular probes with enhanced specificity and spatiotemporal control for the study of proteins and neuropeptide signalling. It addresses recognised knowledge gaps and technical bottlenecks in neuropeptide and memory research. Expected outcomes include a deeper molecular understanding of long-term memory formation and the role of neuropeptides in this process, as well as i ....Molecular probe development for high specificity and spatiotemporal control. This project aims at developing next-generation molecular probes with enhanced specificity and spatiotemporal control for the study of proteins and neuropeptide signalling. It addresses recognised knowledge gaps and technical bottlenecks in neuropeptide and memory research. Expected outcomes include a deeper molecular understanding of long-term memory formation and the role of neuropeptides in this process, as well as innovative chemistry strategies and novel molecular probes to advance fundamental research across the chemical and biological sciences. Anticipated benefits include technological innovations of relevance to Australia’s biotechnology sector and enhanced capacity for cross-disciplinary collaboration.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101329
Funder
Australian Research Council
Funding Amount
$435,000.00
Summary
Advanced Chemical Protein Synthesis and Applications. This project aims to develop enhanced methods for the chemical assembly of peptides, oligonucleotides and proteins. This will lead to the creation of new knowledge in chemistry and structural biology, and underpin advances in the drug discovery process, pharmaceutical manufacture and biocatalysis. Once complete, it is expected that lower cost, greener processes for manufacturing drugs such as Enfuvirtide (for HIV) will ensue. A new generatio ....Advanced Chemical Protein Synthesis and Applications. This project aims to develop enhanced methods for the chemical assembly of peptides, oligonucleotides and proteins. This will lead to the creation of new knowledge in chemistry and structural biology, and underpin advances in the drug discovery process, pharmaceutical manufacture and biocatalysis. Once complete, it is expected that lower cost, greener processes for manufacturing drugs such as Enfuvirtide (for HIV) will ensue. A new generation of hyper-stable, environmentally friendly catalysts will also be developed. This could enable domestic production of fine chemicals and essential medicines, and thus create high-tech jobs in a more diversified, resilient economy. Ultimately, it could lead to improved outcomes in human health.Read moreRead less
ARC Centre of Excellence for Innovations in Peptide and Protein Science. The ARC Centre of Excellence for Innovations in Peptide and Protein Science (CIPPS) strives to build a critical understanding of peptides and proteins in order to unleash the potential of these biomolecules for human benefit. We will discover nature’s untapped reservoir of peptides and proteins, decode their structures and functions, and
develop enhanced synthetic technologies to address biology’s next grand challenge—the d ....ARC Centre of Excellence for Innovations in Peptide and Protein Science. The ARC Centre of Excellence for Innovations in Peptide and Protein Science (CIPPS) strives to build a critical understanding of peptides and proteins in order to unleash the potential of these biomolecules for human benefit. We will discover nature’s untapped reservoir of peptides and proteins, decode their structures and functions, and
develop enhanced synthetic technologies to address biology’s next grand challenge—the design of peptides and proteins for targeted scientific, agricultural, biotechnology, animal health and pharmaceutical applications. CIPPS will assemble leading researchers from diverse disciplines to create a sustainable national entity that will drive new Australian industries and train next generation researchers.Read moreRead less