Industrial biotechnology for improved manufacture of medicinal alkaloids. Industrial biotechnology for improved manufacture of medicinal alkaloids. This project aims to develop a new semi-synthetic route for the manufacture of Codeine from Thebaine. Codeine is manufactured by the chemical conversion of poppy-derived Morphine, which is low yielding and environmentally unfriendly. This project will investigate and optimise two key enzymes in the biosynthetic pathway to Codeine and develop an innov ....Industrial biotechnology for improved manufacture of medicinal alkaloids. Industrial biotechnology for improved manufacture of medicinal alkaloids. This project aims to develop a new semi-synthetic route for the manufacture of Codeine from Thebaine. Codeine is manufactured by the chemical conversion of poppy-derived Morphine, which is low yielding and environmentally unfriendly. This project will investigate and optimise two key enzymes in the biosynthetic pathway to Codeine and develop an innovative bioreactor to achieve high yield. It will research industrial biotransformations, providing a greener and cheaper process for increased global access to Codeine. Australian opiate manufacturing is expected to benefit from value adding and increased flexibility introduced by a biotechnology approach.Read moreRead less
Algal direct-air CO2 capture through interfacial enzyme immobilisation . Capturing CO2 directly from the atmosphere is challenging due to inherently slow mass transfer kinetics. This project aims to overcome this using an enzyme that can rapidly solubilise CO2 from air into water, to produce algae. By engineering the enzyme immobilisation at the air-water interface, this project will activate and protect the enzymes, increasing their lifespan and reducing costs. By understanding mass transfer an ....Algal direct-air CO2 capture through interfacial enzyme immobilisation . Capturing CO2 directly from the atmosphere is challenging due to inherently slow mass transfer kinetics. This project aims to overcome this using an enzyme that can rapidly solubilise CO2 from air into water, to produce algae. By engineering the enzyme immobilisation at the air-water interface, this project will activate and protect the enzymes, increasing their lifespan and reducing costs. By understanding mass transfer and enzyme activity in the interfacial immobilisation media, floating enzyme rafts can be developed for deployment over expansive areas, facilitating large-scale conversion of atmospheric CO2 into algae-derived fuels, feeds and chemicals.Read moreRead less
Using photosynthesis to power fine chemical production. This project aims to develop robust, solar driven, enzyme-based biocatalysts to synthesise complex metabolites and biopharmaceutical molecules in single-cell micro-algae. The significance of this project is that solar energy is used to drive challenging chemical reactions inexpensively via photosynthesis. Expected outcomes include sustainable, solar driven production of high-value molecules that are difficult or impossible to synthesise che ....Using photosynthesis to power fine chemical production. This project aims to develop robust, solar driven, enzyme-based biocatalysts to synthesise complex metabolites and biopharmaceutical molecules in single-cell micro-algae. The significance of this project is that solar energy is used to drive challenging chemical reactions inexpensively via photosynthesis. Expected outcomes include sustainable, solar driven production of high-value molecules that are difficult or impossible to synthesise chemically. Benefits include proof-of-principle demonstration of new, light-driven green-chemistry processes for the production of biochemicals, biopharmaceuticals, agricultural and industrial chemicals, extending the diversity of molecules we can make while reducing cost and environmental impact of their production.Read moreRead less
Evolved enzymes and biomimetics for organophosphate degradation. Organophosphate (OP) pesticides are an indispensable part of modern agriculture - their use results in dramatically increased crop yields. However, they are toxic and can damage the environment and cause significant health problems. This project intends to evolve enzymes capable of dealing with problems caused by OPs.