Shaping the vertebrate brain: defining the cellular and genetic drivers . This project aims to uncover specific cellular and genetic mechanisms that control growth and shape of the brain. How brain shape and size changes during evolution of vertebrates is enigmatic but important to know for better understanding of behaviour and function of intact and diseased brain. The project aims to assemble team of national and international experts to build international capacity and unique genetics model t ....Shaping the vertebrate brain: defining the cellular and genetic drivers . This project aims to uncover specific cellular and genetic mechanisms that control growth and shape of the brain. How brain shape and size changes during evolution of vertebrates is enigmatic but important to know for better understanding of behaviour and function of intact and diseased brain. The project aims to assemble team of national and international experts to build international capacity and unique genetics model to generate new knowledge of the cellular and genetic components that drive evolution of different brain parts and shapes the vertebrate brain. In doing so the project aims to provide research training, excellence and knowledge that in future may benefit health and the society. Read moreRead less
Functional and regulatory analysis of n-acetylcholine receptors, key targets of insecticides. Agriculture is one of Australia's mainstay industries and a major user of insecticides. However, current insecticides suffer a number of significant deficiencies, including collateral damage in the environment and insect resistance. One of the major targets for insecticides are a class of neuronal receptors, found in organisms ranging from worms to man. Our work will provide a detailed biological unders ....Functional and regulatory analysis of n-acetylcholine receptors, key targets of insecticides. Agriculture is one of Australia's mainstay industries and a major user of insecticides. However, current insecticides suffer a number of significant deficiencies, including collateral damage in the environment and insect resistance. One of the major targets for insecticides are a class of neuronal receptors, found in organisms ranging from worms to man. Our work will provide a detailed biological understanding of these receptors leading to better ways of developing new insecticides. Similar receptors in humans are the target for nicotine and associated with neurological disorders such as schizophrenia and autism. Thus our work will also increase our understanding of important human receptors associated with disease.Read moreRead less
Olfactory signal transduction in Drosophila melanogaster. This project will strengthen Australia's research capabilities in the areas of molecular neurobiology and neurogenetics. The project will equip students with the intellectual and technical skills needed to work in priority areas such as genomics and biotechnology, as well as in medical and agricultural research, and education. The research has possible long term applications in modifying the behaviour of insects of agricultural or medical ....Olfactory signal transduction in Drosophila melanogaster. This project will strengthen Australia's research capabilities in the areas of molecular neurobiology and neurogenetics. The project will equip students with the intellectual and technical skills needed to work in priority areas such as genomics and biotechnology, as well as in medical and agricultural research, and education. The research has possible long term applications in modifying the behaviour of insects of agricultural or medical importance. For example, by inhibiting the ability of insects to perceive specific odours it may ultimately be possible to prevent insects that carry disease from identifying target animals, or plant pests from locating their host plants.Read moreRead less
Olfactory signalling and coding in Drosophila and other insects. Animals rely on olfactory cues to detect food, danger, and others of the same species. The olfactory systems of Drosophila and other insects are simpler than those of mammals, yet complex enough to offer fascinating systems for studying neural information processing. This project aims to investigate the role of the Drosophila odorant receptors in olfactory coding, and to use multiple approaches to isolate components of the poorly u ....Olfactory signalling and coding in Drosophila and other insects. Animals rely on olfactory cues to detect food, danger, and others of the same species. The olfactory systems of Drosophila and other insects are simpler than those of mammals, yet complex enough to offer fascinating systems for studying neural information processing. This project aims to investigate the role of the Drosophila odorant receptors in olfactory coding, and to use multiple approaches to isolate components of the poorly understood insect olfactory signal transduction pathway. In addition, the role of the NO/cGMP pathway in olfactory signalling will be studied using an olfactory mutant that has nitric oxide synthase defects.Read moreRead less
Improved insect pest control through understanding mechanisms of insecticide action. Receptors in the nervous system relay signals required for nerve function. Insecticides targeting these receptors provide insect pest control. Better insecticides could be designed if the proteins involved in receptor assembly function were known. In identifying these proteins this project will improve options for safe and effective pest control.