Testing the free radical theory of aging: do indicators of oxidative damage predict lifespan? Because of the Free Radical Theory of Aging, many millions of dollars are spent around the world on dietary antioxidants of unproven efficacy. Many millions of research dollars are spent providing support for this theory but few studies test it rigorously. The first major benefit of this research is worldwide; to refute, or to substantially enhance and focus the current support for the Free Radical Theo ....Testing the free radical theory of aging: do indicators of oxidative damage predict lifespan? Because of the Free Radical Theory of Aging, many millions of dollars are spent around the world on dietary antioxidants of unproven efficacy. Many millions of research dollars are spent providing support for this theory but few studies test it rigorously. The first major benefit of this research is worldwide; to refute, or to substantially enhance and focus the current support for the Free Radical Theory. This should help to rationalise and direct funding supplied to these areas. The second benefit is for Australia: aging is a fruitful area for research because of the high general public interest and for training because of its multidisciplinary nature, and funding in Australia is very low by international standards. Read moreRead less
The role of dopamine in the regulation of worker sterility in the honey bee. This project will open new doors into the knowledge of honey bees' sterility. We will not only show that certain genes control honey bee sterility but also that there is interactions between these genes and environmental cues such as the pheromones released by the queen. The project will provide significant material for a better understanding of honey bees society. Honey bees remain the most important pollinator world w ....The role of dopamine in the regulation of worker sterility in the honey bee. This project will open new doors into the knowledge of honey bees' sterility. We will not only show that certain genes control honey bee sterility but also that there is interactions between these genes and environmental cues such as the pheromones released by the queen. The project will provide significant material for a better understanding of honey bees society. Honey bees remain the most important pollinator world wide, and their conservation is a major concern both to agriculturalists and the general public. The project will be of immense scientific interest, and likely to be regarded as a major breakthrough. The project will also foster a strong intellectual collaboration between New Zealand and Australia.Read moreRead less
Epigenetic integration of genomic and environmental information in honey bees. Environmental factors such as nutrition, drugs or childhood neglect alter gene activity without a change to the DNA code and may result in a range of conditions such as cancer, obesity and mental illness. Such epigenetic phenomena are driven by subtle and poorly understood modifications of the genome known as DNA methylation. Our aim is to study the link between DNA methylation and environmental influences. We aspire ....Epigenetic integration of genomic and environmental information in honey bees. Environmental factors such as nutrition, drugs or childhood neglect alter gene activity without a change to the DNA code and may result in a range of conditions such as cancer, obesity and mental illness. Such epigenetic phenomena are driven by subtle and poorly understood modifications of the genome known as DNA methylation. Our aim is to study the link between DNA methylation and environmental influences. We aspire to understand how environmental signals trigger the reprogramming of transcriptional control of genetic networks that lead to contrasting phenotypic and behavioural outcomes using the honey bee modelRead moreRead less
Devising sophisticated computational comparative genomic analysis strategies for animal and plant genomes. Given the significance of comparative genomic analysis, this research proposal brings together Australian scientists with a track record in comparative genomic analysis, bioinformatics, molecular biology and statistics to work on consolidating a computational framework for comparative genomic analysis and investigating transcriptome data by capitalising on international collaborations and i ....Devising sophisticated computational comparative genomic analysis strategies for animal and plant genomes. Given the significance of comparative genomic analysis, this research proposal brings together Australian scientists with a track record in comparative genomic analysis, bioinformatics, molecular biology and statistics to work on consolidating a computational framework for comparative genomic analysis and investigating transcriptome data by capitalising on international collaborations and involvement. The outcomes of this research will be of benefit to the national community through technology transfer (such as the identification of novel and functional genomic non-coding sequences), training (in bioinformatics related activities) and national coordination (of bioinformatics activities).Read moreRead less
Statistical Advances in the Post-Genome Era. Biologically relevant statistical foundations for post-genome biology and biotechnology will be developed. Specific goals of the topics include the development of accurate and more efficient algorithms for sequence alignments, improved models to maximise the accuracy of analyses for gene expression data and superior statistical methods for identification of complex gene networks that predispose an organism to disease. The Project will make significant ....Statistical Advances in the Post-Genome Era. Biologically relevant statistical foundations for post-genome biology and biotechnology will be developed. Specific goals of the topics include the development of accurate and more efficient algorithms for sequence alignments, improved models to maximise the accuracy of analyses for gene expression data and superior statistical methods for identification of complex gene networks that predispose an organism to disease. The Project will make significant contributions to the new and evolving priority research area of Bioinformation Science (including bioinformatics). Outcomes will include novel techniques for analysis and mining of post-genome data, with applications to developments in Bio-medicine and Bio-agricultureRead moreRead less
Characterisation of heavy metal transport genes in the plant Arabidopsis: potential roles in metal detoxification and accumulation. Plants have considerable potential for the bioremediation ("phytoremediation") of contaminated soils, including soils polluted with heavy metals. Progress has been made in understanding the physiological and biochemical mechanisms by which plants accumulate and detoxify heavy metals. One important aspect of metal detoxification is the transport of metals across cell ....Characterisation of heavy metal transport genes in the plant Arabidopsis: potential roles in metal detoxification and accumulation. Plants have considerable potential for the bioremediation ("phytoremediation") of contaminated soils, including soils polluted with heavy metals. Progress has been made in understanding the physiological and biochemical mechanisms by which plants accumulate and detoxify heavy metals. One important aspect of metal detoxification is the transport of metals across cell membranes. The recently completed genome project for the model plant Arabidopsis has identified a family of genes encoding heavy metal transport proteins. This project aims to investigate the roles of these genes in metal detoxification. In the longer term this knowledge can be applied to the improvement of phytoremediation processes.Read moreRead less
Genetic variation of transcriptional control. Genetic variation is a key cause phenotype differences in humans, animals, and plants and so of great economic importance. Despite its proven importance to human diseases, ?quantitative? variation in the amount of gene expression rather than ?qualitative? protein sequence changes, has not been systematically studied. We have developed a powerful method to identify genetic causes of quantitative variation using crosses of inbred mice in conjunction wi ....Genetic variation of transcriptional control. Genetic variation is a key cause phenotype differences in humans, animals, and plants and so of great economic importance. Despite its proven importance to human diseases, ?quantitative? variation in the amount of gene expression rather than ?qualitative? protein sequence changes, has not been systematically studied. We have developed a powerful method to identify genetic causes of quantitative variation using crosses of inbred mice in conjunction with microarray techniques to analyse expression of thousands of genes simultaneously. These studies will be extended to humans and be significant to wide areas of biological and commercial activity.Read moreRead less
A comparative genomics approach to understanding host-endosymbiont interactions. Australia's unique ecosystems are vulnerable to invasion by exotic pests that threaten agriculture and human health. The bacterial symbiont Wolbachia is found in many major pests of agricultural and medical importance. Our results will give insights into how Wolbachia spreads into host populations and improve its use as a tool to impair insect transmission of disease, e.g. as an agent to carry genes into an insect p ....A comparative genomics approach to understanding host-endosymbiont interactions. Australia's unique ecosystems are vulnerable to invasion by exotic pests that threaten agriculture and human health. The bacterial symbiont Wolbachia is found in many major pests of agricultural and medical importance. Our results will give insights into how Wolbachia spreads into host populations and improve its use as a tool to impair insect transmission of disease, e.g. as an agent to carry genes into an insect population that limit disease transmission. Our results will also make fundamental contributions to understanding host-parasite evolution, host-parasite communication, and insect developmental processes, and will be of interest to a large international community of researchers in this field. Read moreRead less
Genetic control of flowering and photoperiodism in pea. The timing of flowering in many plant species is strongly influenced by photoperiod. The mechanisms by which photoperiod controls flowering will be investigated using the garden pea as a model system. New pea mutants impairing photoperiod responses will be identified and characterized, and photoperiod response genes from Arabidopsis will be mapped and used for expression studies in pea. This work will provide important new information about ....Genetic control of flowering and photoperiodism in pea. The timing of flowering in many plant species is strongly influenced by photoperiod. The mechanisms by which photoperiod controls flowering will be investigated using the garden pea as a model system. New pea mutants impairing photoperiod responses will be identified and characterized, and photoperiod response genes from Arabidopsis will be mapped and used for expression studies in pea. This work will provide important new information about the physiological roles of the Arabidopsis genes and the molecular identity of the pea genes. It will add to our knowledge of how flowering is regulated, and this will have important agronomic applications.Read moreRead less
Behaviour-genetic studies of literacy, language and attention. The primary national benefit will be the unrivalled picture that emerges about how genetic factors interact with aspects of the family and educational environment to determine the course of a child's progress in literacy and language. Policy makers will be able to use the information to guide curriculum refinement, and to develop policies for the identification and instruction of children at developmental risk in these domains. The p ....Behaviour-genetic studies of literacy, language and attention. The primary national benefit will be the unrivalled picture that emerges about how genetic factors interact with aspects of the family and educational environment to determine the course of a child's progress in literacy and language. Policy makers will be able to use the information to guide curriculum refinement, and to develop policies for the identification and instruction of children at developmental risk in these domains. The project will also strengthen Australia's position in the cutting-edge field of behavioural genetics through the postdoctoral support of a young scientist.Read moreRead less