Pore Engineering of Chromatography Membranes for Bioseparation. Protein separation and purification is an essential unit operation in manufacturing processes of therapeutic proteins. The project aims to advance the practical applications of chromatography membrane, an emerging technology for protein separation and purification, by tailoring membrane pore geometry and surface functionality to achieve enhanced separation performance. The project expects to generate advanced knowledge and technique ....Pore Engineering of Chromatography Membranes for Bioseparation. Protein separation and purification is an essential unit operation in manufacturing processes of therapeutic proteins. The project aims to advance the practical applications of chromatography membrane, an emerging technology for protein separation and purification, by tailoring membrane pore geometry and surface functionality to achieve enhanced separation performance. The project expects to generate advanced knowledge and techniques in the fields of reactive polymer synthesis, functional membrane fabrication and application in bioseparation. The innovative membranes developed in the project are able to improve the production capacity of therapeutic protein manufacturing processes, providing significant economic benefits to Australia.Read moreRead less
Rare Earth Metal Separation by Polymer Inclusion Membranes. The project aims to develop a novel hydrometallurgical method for the separation of the rare earth metals dysprosium and terbium from mixed rare earth metal solutions using polymer inclusion membranes with a crosslinked or non-crosslinked polymer backbone. These metals are crucial for the manufacturing of advanced technology products. The membrane-based method is expected to offer significant advantages over the currently used solvent e ....Rare Earth Metal Separation by Polymer Inclusion Membranes. The project aims to develop a novel hydrometallurgical method for the separation of the rare earth metals dysprosium and terbium from mixed rare earth metal solutions using polymer inclusion membranes with a crosslinked or non-crosslinked polymer backbone. These metals are crucial for the manufacturing of advanced technology products. The membrane-based method is expected to offer significant advantages over the currently used solvent extraction methods by eliminating the use of solvents and conducting the separation as a continuous process where the extraction and back-extraction steps take place simultaneously. These advantages are expected to make the separation process more cost-effective and drastically reduce its environmental impact.Read moreRead less
Industrial biotechnology for the manufacture of alkaloid pharmaceuticals. Drugs that treat opioid dependence and overdose are increasingly needed but their manufacture is difficult, inefficient and expensive. This project aims to develop enzymatic N-demethylation as a simpler and more sustainable approach to the manufacture and modification of opioid antagonists, alkaloids and other drug targets. It will increase our understanding of enzymatic N-demethylation and address engineering and biotechn ....Industrial biotechnology for the manufacture of alkaloid pharmaceuticals. Drugs that treat opioid dependence and overdose are increasingly needed but their manufacture is difficult, inefficient and expensive. This project aims to develop enzymatic N-demethylation as a simpler and more sustainable approach to the manufacture and modification of opioid antagonists, alkaloids and other drug targets. It will increase our understanding of enzymatic N-demethylation and address engineering and biotechnology challenges to improve yield and product isolation and concentration. Improvements in drug manufacturing processes will assist drug affected communities and industry will benefit from value adding, greater market share and flexibility, increased innovation and de-risked processes and new products. Read moreRead less
Engineering new tools to aid structure determination of membrane proteins. This project aims to address the inherent instability of G protein-coupled receptors (GPCRs), which are cell-surface proteins that are a major drug targets. The instability of GPCRs has resulted in a lack of atomic-level structural information that has hindered structure-based drug discovery efforts. This project expects to develop tools to improve GPCR stability and streamline the structure determination process. Project ....Engineering new tools to aid structure determination of membrane proteins. This project aims to address the inherent instability of G protein-coupled receptors (GPCRs), which are cell-surface proteins that are a major drug targets. The instability of GPCRs has resulted in a lack of atomic-level structural information that has hindered structure-based drug discovery efforts. This project expects to develop tools to improve GPCR stability and streamline the structure determination process. Project outcomes are intended to lead to significant advances in membrane protein structure determination and will have a substantial impact on future research in the pharmaceutical industry.Read moreRead less