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Function and evolution of insect odorant receptors. This project aims to shed light on how insect odorant receptors function by using comparative genomic studies between the genetic model insect Drosophila melanogaster and a pest species, the Australian sheep blowfly. This project expects to generate knowledge of how specific chemicals activate specific receptors in order to excite sensory neurons and drive behaviour, which is not well understood. Expected outcomes include increased understandin ....Function and evolution of insect odorant receptors. This project aims to shed light on how insect odorant receptors function by using comparative genomic studies between the genetic model insect Drosophila melanogaster and a pest species, the Australian sheep blowfly. This project expects to generate knowledge of how specific chemicals activate specific receptors in order to excite sensory neurons and drive behaviour, which is not well understood. Expected outcomes include increased understanding of olfaction in insects, increased national and international collaboration, and outstanding graduate student training. This research will be of significant future benefit in deriving methods to modify the behaviour of insects of agricultural or medical importance, for example the sheep blowfly. Read moreRead less
A novel regulator of growth signalling in Drosophila. This project aims to increase understanding of how growth is regulated by growth factor hormones. In animals, growth is controlled by signalling pathways that are activated by secreted peptide hormones. A new regulator of growth in the fruitfly Drosophila, the membrane attack complex/perforin-like (MACPF) protein Torso-like, has been identified. The project aims to unravel how Torso-like functions to regulate growth, thus throwing light on th ....A novel regulator of growth signalling in Drosophila. This project aims to increase understanding of how growth is regulated by growth factor hormones. In animals, growth is controlled by signalling pathways that are activated by secreted peptide hormones. A new regulator of growth in the fruitfly Drosophila, the membrane attack complex/perforin-like (MACPF) protein Torso-like, has been identified. The project aims to unravel how Torso-like functions to regulate growth, thus throwing light on the role this protein family may play in all animals. The findings are expected to provide key insights into the modification of growth factor activity, which is often dysregulated in human cancers and growth disorders, and may enable the design of new strategies for interfering with insect development for pest control.Read moreRead less
The role of recombination in eucalypt evolution. Meiotic recombination is a key source of the genetic variation upon which evolution thrives. This project aims to exploit new genomic resources to provide the first detailed study of recombination in Australia’s iconic Eucalypts and clarify its evolutionary role. This project will study: variation in the rate of recombination along the 11 Eucalypt chromosomes, and determine genome features which are associated with ‘hotspots’ and ‘coldspots’ of re ....The role of recombination in eucalypt evolution. Meiotic recombination is a key source of the genetic variation upon which evolution thrives. This project aims to exploit new genomic resources to provide the first detailed study of recombination in Australia’s iconic Eucalypts and clarify its evolutionary role. This project will study: variation in the rate of recombination along the 11 Eucalypt chromosomes, and determine genome features which are associated with ‘hotspots’ and ‘coldspots’ of recombination; the patterns of variation in recombination rate between species, genotypes, sexes and chromosomes; and, whether the environment and population history affect recombination and thus evolvability of natural populations.Read moreRead less
Genetics of species differentiation and hybridisation in Eucalyptus. Eucalypts are an icon of Australia and of great economic and ecological significance. This project will use genomic technologies to provide novel insights into the evolutionary processes that shape diversity in this genus. This will contribute to the development of better conservation and management practices for this valuable genetic resource.