Combining new synthetic biology tools to boost crop CO2 capture and growth. A solution for improving crop yield is to enhance the carbon dioxide fixation properties of the enzyme Rubisco whose inefficient activity often limits plant growth. This project makes use of new synthetic biology capabilities to artificially evolve Rubisco in the laboratory and select for new versions with improved performance. These beneficial changes will be introduced into crop Rubisco using targeted gene editing appr ....Combining new synthetic biology tools to boost crop CO2 capture and growth. A solution for improving crop yield is to enhance the carbon dioxide fixation properties of the enzyme Rubisco whose inefficient activity often limits plant growth. This project makes use of new synthetic biology capabilities to artificially evolve Rubisco in the laboratory and select for new versions with improved performance. These beneficial changes will be introduced into crop Rubisco using targeted gene editing approaches and the improvements in photosynthesis, growth and yield evaluated. This information will aid complimentary biotechnological efforts seeking to supercharge photosynthesis and help deliver the second Green Revolution needed to meet the improvement required in future agriculture productivity and resource use.Read moreRead less
Light-driven biocatalytic cell factories. This project aims to develop single-cell algae optimised for high-efficiency green hydrogen production from cheap, sustainable resources - sunlight and water. The success of this project would be a game changer for industry by dramatically improving light to fuel conversion efficiencies. The expected high-efficiency cells would be a valuable resource for a wide range of other light-driven advanced bio-manufacture applications from high-value biopharmaceu ....Light-driven biocatalytic cell factories. This project aims to develop single-cell algae optimised for high-efficiency green hydrogen production from cheap, sustainable resources - sunlight and water. The success of this project would be a game changer for industry by dramatically improving light to fuel conversion efficiencies. The expected high-efficiency cells would be a valuable resource for a wide range of other light-driven advanced bio-manufacture applications from high-value biopharmaceuticals (e.g. <10 Hectare scale) through to renewable fuels (e.g. 10-1000 Hectare regional scale). The benefits would include advanced green chemical and biochemical manufacturing, diversified sources for green H2 production, regional development, industry growth, job security and exports.Read moreRead less