Identification of novel plant transporters responsible for sucrose efflux. This project aims to clone and functionally characterise previously unknown membrane proteins that facilitate high rates of sucrose efflux from cells located at key transport bottlenecks regulating sucrose transport throughout the plant body and hence plant productivity. These aims will be realised through employing systems specifically designed to clone and functionally characterise sucrose efflux proteins encoded in pla ....Identification of novel plant transporters responsible for sucrose efflux. This project aims to clone and functionally characterise previously unknown membrane proteins that facilitate high rates of sucrose efflux from cells located at key transport bottlenecks regulating sucrose transport throughout the plant body and hence plant productivity. These aims will be realised through employing systems specifically designed to clone and functionally characterise sucrose efflux proteins encoded in plant genomes. Expected outcomes will be an understanding of sucrose transport throughout the plant body, build a valuable international partnership and open up new biotechnological opportunities to improve crop yield.Read moreRead less
Molecular dissection of systemic regulation of nodulation in legumes. This project aims to discover and characterise critical new factors that control legume nodule numbers. Legume plants can increase crop productivity and improve agricultural sustainability by forming specialised root nodules that house nitrogen-fixing rhizobia bacteria. The project will use a multidisciplinary approach to identify the elusive Shoot Derived Inhibitor molecule and define its interaction with novel genes, microRN ....Molecular dissection of systemic regulation of nodulation in legumes. This project aims to discover and characterise critical new factors that control legume nodule numbers. Legume plants can increase crop productivity and improve agricultural sustainability by forming specialised root nodules that house nitrogen-fixing rhizobia bacteria. The project will use a multidisciplinary approach to identify the elusive Shoot Derived Inhibitor molecule and define its interaction with novel genes, microRNAs and phytohormones in nodulation control. Findings will considerably enhance the current nodulation models and will benefit strategies to generate new compounds and crop varieties that mitigate fertiliser requirements, improve soil conditions and increase food security.Read moreRead less