Development and application of new peptide ligation methods for the synthesis and structure-function studies of glycoproteins. Novel synthetic technologies will be developed in this project to facilitate the preparation of glycoproteins, which are of widespread biological and therapeutic interest. These methods will enable the preparation of pure glycoproteins for detailed biochemical and functional studies eventually leading to therapeutic and diagnostic applications.
Boosting C4 photosynthesis to climate proof crop yields. Building next generation C4 crops, such as maize, sugarcane and sorghum, to cope with drought and heat stress is requisite to ensure the supply of food and fodder. Here we will increase the content and / or catalytic efficiency of the primary carboxylase of C4 photosynthesis (PEPC) that supplies CO2 to the carbon concentrating mechanism and ensures high photosynthetic rates. We will develop new SynBio tools to create and test novel PEPC is ....Boosting C4 photosynthesis to climate proof crop yields. Building next generation C4 crops, such as maize, sugarcane and sorghum, to cope with drought and heat stress is requisite to ensure the supply of food and fodder. Here we will increase the content and / or catalytic efficiency of the primary carboxylase of C4 photosynthesis (PEPC) that supplies CO2 to the carbon concentrating mechanism and ensures high photosynthetic rates. We will develop new SynBio tools to create and test novel PEPC isoforms with desirable properties. Ultimately, the project aims to identify isoforms that improve plant fitness under stress conditions. Optimising PEPC activity will provide next generation solutions to improve water balance and carbon assimilation to keep C4 crops productive under future climates.Read moreRead less
Functional studies of tyrosine sulfation using synthetic sulfoproteins. This project aims to address a lack of knowledge about how post-translational sulfation of tyrosine residues influences protein function. The project will develop a synthetic platform for the rapid and efficient generation of libraries of site-selectively sulfated proteins. The new methods will be used to study bioactive sulfated proteins secreted by ticks that dampen the inflammatory response and prevent blood from clotting ....Functional studies of tyrosine sulfation using synthetic sulfoproteins. This project aims to address a lack of knowledge about how post-translational sulfation of tyrosine residues influences protein function. The project will develop a synthetic platform for the rapid and efficient generation of libraries of site-selectively sulfated proteins. The new methods will be used to study bioactive sulfated proteins secreted by ticks that dampen the inflammatory response and prevent blood from clotting. Underpinned by the ability to access synthetic sulfoproteins, expected outcomes include a detailed understanding of how tyrosine sulfation can modulate function and stability of antibodies and proteins with anticoagulant and anti-inflammatory activities. Significant benefits of the project will include breakthrough technologies for the preparation of homogeneously modified proteins, which will strengthen Australia’s growing biotechnology sector.Read moreRead less