Tools for manipulating neuronal activity for behavioural studies. This project aims to develop optogenetic tools neuroscientists can use to better understand brain circuitry and the functional effects of specific neurons on behaviour. Linking the activity of individual neurons in the brain to specific behaviours is a major challenge in neuroscience. Optogenetics achieve this by using light to control the activity of neurons. This has advanced understanding of behaviour and neurocircuitry. This p ....Tools for manipulating neuronal activity for behavioural studies. This project aims to develop optogenetic tools neuroscientists can use to better understand brain circuitry and the functional effects of specific neurons on behaviour. Linking the activity of individual neurons in the brain to specific behaviours is a major challenge in neuroscience. Optogenetics achieve this by using light to control the activity of neurons. This has advanced understanding of behaviour and neurocircuitry. This project is expected to increase understanding of brain function at the cellular and system levels, and advance Australia’s multidisciplinary research capacity in neuroscience, cognitive sciences and nanobiotechnology to ultimately treat neurological disorders.Read moreRead less
Engineer enzyme nanoparticles as antibiotic alternatives for agriculture. Antibiotic usage in agriculture contributes to spread of resistant bacteria. Existing antibiotic alternatives to minimize such usage are focused on growth promotion of animals and infection prevention, but lack efficient treatment. This project aims to engineer enzyme nanoparticles, with synergy from multiple enzymes, to confer better antibacterial abilities against livestock pathogens. It will combine protein engineering, ....Engineer enzyme nanoparticles as antibiotic alternatives for agriculture. Antibiotic usage in agriculture contributes to spread of resistant bacteria. Existing antibiotic alternatives to minimize such usage are focused on growth promotion of animals and infection prevention, but lack efficient treatment. This project aims to engineer enzyme nanoparticles, with synergy from multiple enzymes, to confer better antibacterial abilities against livestock pathogens. It will combine protein engineering, nanotechnology and biophysics to develop new enzyme nanoparticles that can be manufactured at low-cost through self-assembly process. The intended outcome is knowledge on molecular engineering of enzyme nanoparticles and innovative agriculture biotechnology for treatment of bacterial infectious diseases in livestock.Read moreRead less