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
Greening the production of peptides and proteins . This project aims to develop a green and sustainable synthetic platform for the production of peptide and protein molecules. The synthetic methodology that will be developed has the potential to solve a major technological gap in the field by providing an efficient and cost-effective method for manufacturing peptides and proteins with a substantial reduction in reagent and solvent waste over currently employed methods. Expected outcomes include ....Greening the production of peptides and proteins . This project aims to develop a green and sustainable synthetic platform for the production of peptide and protein molecules. The synthetic methodology that will be developed has the potential to solve a major technological gap in the field by providing an efficient and cost-effective method for manufacturing peptides and proteins with a substantial reduction in reagent and solvent waste over currently employed methods. Expected outcomes include the delivery of a breakthrough green technology for accessing high value peptide and protein targets in academia and industry, and the training of industry-ready early career researchers, both of which will benefit Australia’s growing biotechnology and pharmaceutical manufacturing sectors.Read moreRead less
Gut Absorption of Constrained Peptides for Local and Systemic Targeting. Aims: This project aims to investigate how peptides are absorbed across the intestinal wall and distributed to organs and fluids in a rodent model by combining bio-analysis and pharmacokinetics with high-resolution microscopy and imaging.
Significance: This project expects to generate the most comprehensive survey to date of the pathways and mechanisms of peptide absorption, biodistribution and immune cell targeting, by ....Gut Absorption of Constrained Peptides for Local and Systemic Targeting. Aims: This project aims to investigate how peptides are absorbed across the intestinal wall and distributed to organs and fluids in a rodent model by combining bio-analysis and pharmacokinetics with high-resolution microscopy and imaging.
Significance: This project expects to generate the most comprehensive survey to date of the pathways and mechanisms of peptide absorption, biodistribution and immune cell targeting, by implementing innovative approaches.
Expected Outcomes: Expected outcomes include significant new knowledge and a new multi-disciplinary platform for measuring peptide absorption.
Benefits: This should provide significant benefits by informing the future design of peptides for supplements, therapeutics and carriers. Read moreRead less
Novel chemoenzymatic synthesis and bioconjugation of peptides and proteins. This project aims to solve the critical difficulty of producing the complex peptide insulin and related insulin-like peptides (INSLs) and their analogues. The project will use unique, recyclable enzymes which ligate smaller peptide segments with extraordinary site and substrate selectivity. The expected outcome of the project is novel, cheaper and scalable, enzyme-mediated engineering of this critical class of peptides a ....Novel chemoenzymatic synthesis and bioconjugation of peptides and proteins. This project aims to solve the critical difficulty of producing the complex peptide insulin and related insulin-like peptides (INSLs) and their analogues. The project will use unique, recyclable enzymes which ligate smaller peptide segments with extraordinary site and substrate selectivity. The expected outcome of the project is novel, cheaper and scalable, enzyme-mediated engineering of this critical class of peptides as biological probes and potential therapeutic agents.Read moreRead less