Quantitative genetics of Eucalyptus globulus. Eucalypt plantations in Australia have expanded rapidly over the last decade. With increasing market competition from overseas plantations for both pulp and solid wood products, Australia must maintain a competitive edge through efficiencies in production and product quality. Breeding and deployment of genetically superior planting stock is part of the solution. With global climate chance and requirements for re-afforestation in drier zones, there ....Quantitative genetics of Eucalyptus globulus. Eucalypt plantations in Australia have expanded rapidly over the last decade. With increasing market competition from overseas plantations for both pulp and solid wood products, Australia must maintain a competitive edge through efficiencies in production and product quality. Breeding and deployment of genetically superior planting stock is part of the solution. With global climate chance and requirements for re-afforestation in drier zones, there is an increasing requirement to genetically improve drought tolerance. This project will provide genetic information and strategies to back Eucalyptus globulus breeding and deployment programs for traditional as well as drier environments. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100080
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Acquisition of an advanced Fluorescence-Activated Cell Sorter for Tasmania. Tasmania has immediate need for contemporary flow cytometry infrastructure to maintain world-class research for local and global benefit. This project aims to establish next generation, single cell sorting capability to study the impact of ageing and environmental stressors on human, animal and plant biology. Outcomes of this project include: 1) multi-disciplinary expansion across the areas of neuroscience, ecology, evol ....Acquisition of an advanced Fluorescence-Activated Cell Sorter for Tasmania. Tasmania has immediate need for contemporary flow cytometry infrastructure to maintain world-class research for local and global benefit. This project aims to establish next generation, single cell sorting capability to study the impact of ageing and environmental stressors on human, animal and plant biology. Outcomes of this project include: 1) multi-disciplinary expansion across the areas of neuroscience, ecology, evolutionary biology, oceanography, epi/genomics and immunology, 2) ability to develop innovative assays and vaccines, and 3) increase the scale of national and international collaborations. This project will provide direct benefit through our contribution of new knowledge, commercial uptake and impact on policy.Read moreRead less
Turning back the clock on brain cell aging. This proposal aims to determine the role of fundamental epigenetic mechanisms in the process of aging and whether modulation of the epi-genome underpins an improvement in cognitive function. It combines the fields of epigenetics, neurosciences and mathematics to delineate the dynamics of DNA methylation and histone modification marking on the transcriptome during normal, healthy aging. The outcomes will provide significant new knowledge of the variable ....Turning back the clock on brain cell aging. This proposal aims to determine the role of fundamental epigenetic mechanisms in the process of aging and whether modulation of the epi-genome underpins an improvement in cognitive function. It combines the fields of epigenetics, neurosciences and mathematics to delineate the dynamics of DNA methylation and histone modification marking on the transcriptome during normal, healthy aging. The outcomes will provide significant new knowledge of the variable cognitive decline that occurs in healthy aging and why some populations age less successfully than others do. Better understanding of the impact of environmental change on the biology of aging has potential community benefits.Read moreRead less
Unravelling the relationship between growth and wood properties in temperate eucalypts. The most important biological traits affecting profit in eucalypt plantations grown for pulpwood are growth, wood density and pulp yield. Shrinkage and collapse are important for timber production. Little information is available on the size and direction of the correlations between these traits, yet they are important in determining selection response in breeding as well as environmental impacts on pulp and ....Unravelling the relationship between growth and wood properties in temperate eucalypts. The most important biological traits affecting profit in eucalypt plantations grown for pulpwood are growth, wood density and pulp yield. Shrinkage and collapse are important for timber production. Little information is available on the size and direction of the correlations between these traits, yet they are important in determining selection response in breeding as well as environmental impacts on pulp and sawlog yield. The collaborating growers and breeders have brought together a unique base of Eucalyptus globulus and E. nitens field trials that will allow an integrated quantitative and molecular genetic study of the interrelationships amongst these key profit traits.Read moreRead less
Evolutionary history and impact of adeno-associated viruses in Australia. Recently accrued evidence identifies Australia as an ideal closed-model system in which to elucidate the evolutionary history of a group of non-pathogenic viruses, known as adeno-associated viruses (AAVs). This project aims to trace back the evolutionary history of AAVs for tens of millions of years via molecular fossil imprints left behind by ancient viral invasions of Australian marsupial genomes. Concurrently, the poten ....Evolutionary history and impact of adeno-associated viruses in Australia. Recently accrued evidence identifies Australia as an ideal closed-model system in which to elucidate the evolutionary history of a group of non-pathogenic viruses, known as adeno-associated viruses (AAVs). This project aims to trace back the evolutionary history of AAVs for tens of millions of years via molecular fossil imprints left behind by ancient viral invasions of Australian marsupial genomes. Concurrently, the potential impact that these viral invasions had on the evolutionary development of their ancestral hosts will be investigated. This could facilitate previously unattainable insights into both AAV and marsupial evolution, with broader implications relevant to the advancement of the fields of virology and mammalian evolution.Read moreRead less
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
Transitions between modes of sex-determination in a changing world. Sex-determination controls the largest variation within animals—the division into males and females. While the different systems of sex-determination—involving genetic or environmental control—are fairly well understood, transitions between these systems remain enigmatic in evolutionary biology. This project aims to address this gap by revealing the molecular change required to transition between systems, using one of only two k ....Transitions between modes of sex-determination in a changing world. Sex-determination controls the largest variation within animals—the division into males and females. While the different systems of sex-determination—involving genetic or environmental control—are fairly well understood, transitions between these systems remain enigmatic in evolutionary biology. This project aims to address this gap by revealing the molecular change required to transition between systems, using one of only two known lizard species exhibiting both genetic and temperature control of sex. This knowledge will have important implications for species conservation, facilitating predictions of highly biased sex ratios under climate change, plus potential commercial applications for species where production of one sex is favoured.Read moreRead less
Redefining the molecular mechanism underlying crustacean metamorphosis. This project uses the astonishing lifecycle of lobster larvae to better define the pathways and discover the key genes that regulate crustacean metamorphosis. Where, when, why and how metamorphosis occurs in crustaceans are important factors affecting fisheries recruitment and aquaculture production. The project suggests that the current accepted paradigm for the molecular control of metamorphosis does not apply to lobsters ....Redefining the molecular mechanism underlying crustacean metamorphosis. This project uses the astonishing lifecycle of lobster larvae to better define the pathways and discover the key genes that regulate crustacean metamorphosis. Where, when, why and how metamorphosis occurs in crustaceans are important factors affecting fisheries recruitment and aquaculture production. The project suggests that the current accepted paradigm for the molecular control of metamorphosis does not apply to lobsters and possibly other crustaceans where larval metamorphosis and the juvenile transformation are uncoupled. Using a unique supply of cultured lobsters and advanced molecular techniques, the project aims to develop tools to trigger and synchronise metamorphosis for use in aquaculture and invasive species management.Read moreRead less
Will genetic rescue save the Tasmanian devil? This project aims to measure the long-term genetic impacts of the Save the Tasmanian Devil Program’s ‘Wild Devil Recovery’ initiative. The project will determine whether supplementing small populations with individuals that are genetically diverse reduces inbreeding depression. The project will also monitor the impact of supplementation on the evolutionary trajectory of Devil Facial Tumour Disease. The project will train a cohort of conservation scie ....Will genetic rescue save the Tasmanian devil? This project aims to measure the long-term genetic impacts of the Save the Tasmanian Devil Program’s ‘Wild Devil Recovery’ initiative. The project will determine whether supplementing small populations with individuals that are genetically diverse reduces inbreeding depression. The project will also monitor the impact of supplementation on the evolutionary trajectory of Devil Facial Tumour Disease. The project will train a cohort of conservation scientists to translate genetic data into management actions. The outputs will directly inform the management actions of the Tasmanian Department of Primary Industries Parks, Water and the Environment and will help shape other species recovery programs.Read moreRead less