System-level characterisation of the siphonophore, Indo-Pacific man o' war. The Indo-Pacific man o' war (bluebottle), is a cnidarian from the siphonophore order. These animals frequent Australian beaches in swarms and cause thousands of stings every year. The project proposes to profile the genome, transcriptome, epigenome, and proteome of the bluebottle to gain insight into its life cycle, its behaviour, and toxins. Expected outcomes include the generation of novel information related to bluebo ....System-level characterisation of the siphonophore, Indo-Pacific man o' war. The Indo-Pacific man o' war (bluebottle), is a cnidarian from the siphonophore order. These animals frequent Australian beaches in swarms and cause thousands of stings every year. The project proposes to profile the genome, transcriptome, epigenome, and proteome of the bluebottle to gain insight into its life cycle, its behaviour, and toxins. Expected outcomes include the generation of novel information related to bluebottle gene regulation and its toxin repertoire, which will be highly beneficial for the design of future sting treatment strategies. Given that the bluebottle is a colony made of functionally specialised polyps, this study will also provide significant novel insight into the origins and evolution of animal multicellularity.Read moreRead less
How is molecular information passed between generations? This project aims to determine the mechanisms responsible for the inheritance of acquired traits. Sometimes the environment can have effects on the phenotype of not only the exposed individual, but also their children and grandchildren. While it is clear that this can occur, what is not clear is the mechanism by which this happens and the frequency at which it happens. This project will combine use of the model organism Caenorhabditis eleg ....How is molecular information passed between generations? This project aims to determine the mechanisms responsible for the inheritance of acquired traits. Sometimes the environment can have effects on the phenotype of not only the exposed individual, but also their children and grandchildren. While it is clear that this can occur, what is not clear is the mechanism by which this happens and the frequency at which it happens. This project will combine use of the model organism Caenorhabditis elegans with biochemistry and structural biology to determine what the molecular mechanism is by which this "transgenerational epigenetic inheritance" occurs.Read moreRead less
Next-generation epigenetic analysis: direct reading of DNA methylation. This project aims to develop a new molecular tool to directly and dynamically read chemical modifications on genomic DNA (epigenetics) by utilizing advanced nanomaterials with the unique features of Raman spectroscopy. Epigenetics affects cellular processes and controls genetic programs by turning them “on” and “off" but there is currently no direct method to measure modifications on DNA. A new technology will be designed to ....Next-generation epigenetic analysis: direct reading of DNA methylation. This project aims to develop a new molecular tool to directly and dynamically read chemical modifications on genomic DNA (epigenetics) by utilizing advanced nanomaterials with the unique features of Raman spectroscopy. Epigenetics affects cellular processes and controls genetic programs by turning them “on” and “off" but there is currently no direct method to measure modifications on DNA. A new technology will be designed to avoid complicated procedures/chemistry for DNA epigenetic analysis providing a specific molecular fingerprint. The anticipated outcomes include a new technique and advanced knowledge in nanomaterials and DNA functions, thus strengthening the economic viability of Australian manufacturing and biotechnology sectors.Read moreRead less
Characterising inheritance patterns of whole genome DNA methylation. This project aims to characterise epigenetic diversity and inheritance patterns in whole genome sequencing data from a unique human population. The project will employ the well-characterised Norfolk Island genetic isolate, cost-effective whole genome bisulphite sequencing technologies and advanced bioinformatics pipelines and statistical models. It will involve cross-discipline collaboration between human geneticists, epigeneti ....Characterising inheritance patterns of whole genome DNA methylation. This project aims to characterise epigenetic diversity and inheritance patterns in whole genome sequencing data from a unique human population. The project will employ the well-characterised Norfolk Island genetic isolate, cost-effective whole genome bisulphite sequencing technologies and advanced bioinformatics pipelines and statistical models. It will involve cross-discipline collaboration between human geneticists, epigeneticists, statistical geneticists and bioinformaticians. This project will advance our understanding of the interaction of genetics and epigenetics and their relationship to diversity and inheritance in humans.Read moreRead less
Discovering the molecular controls of epigenetic inheritance . This project aims to investigate the way in which acquired traits can be inherited. The environment that an individual is exposed to can change the characteristics of not only that individual, but also their children and grandchildren. We do not yet understand the mechanisms by which this “epigenetic inheritance” occurs. Using interdisciplinary approaches, this project combines the power of the model organism Caenorhabditis elegans ....Discovering the molecular controls of epigenetic inheritance . This project aims to investigate the way in which acquired traits can be inherited. The environment that an individual is exposed to can change the characteristics of not only that individual, but also their children and grandchildren. We do not yet understand the mechanisms by which this “epigenetic inheritance” occurs. Using interdisciplinary approaches, this project combines the power of the model organism Caenorhabditis elegans with cutting-edge single molecule microscopy techniques to determine the molecular mechanisms by which the environment can impact future generations. This should ultimately provide society with the means to harness the power of epigenetics.Read moreRead less
Epigenetic inheritance: how does it work? This project aims to determine the mechanisms responsible for the inheritance of acquired traits. Sometimes the environment can have effects on the phenotype of not only the exposed individual, but also their children and grandchildren. While it is clear that this can occur, what is not clear is the mechanism by which this happens and the frequency at which it happens. This project will use the model organism Caenorhabditis elegans, innovative new techni ....Epigenetic inheritance: how does it work? This project aims to determine the mechanisms responsible for the inheritance of acquired traits. Sometimes the environment can have effects on the phenotype of not only the exposed individual, but also their children and grandchildren. While it is clear that this can occur, what is not clear is the mechanism by which this happens and the frequency at which it happens. This project will use the model organism Caenorhabditis elegans, innovative new techniques for the discovery of low abundance RNA molecules, and fluorescence microscopy to analyse structures within the cell nucleus to determine what the molecular mechanism is by which this "transgenerational epigenetic inheritance" occurs. This will have an impact on evolutionary theory, as well as long-term consequences for the understanding of human health and disease, and the impact of a changing climate on agriculture.Read moreRead less
Does nicotine make memories stronger? . This project studies why memories encoded in the presence of nicotine are stronger and longer lasting than other types of memories. Its goal is to use an innovative interdisciplinary approach, including sophisticated behavioural analysis and advanced genetic tools, to show that nicotine ‘switches on’ genes that are important for long-term memory formation. The anticipated outcome is an improved understanding of basic memory consolidation processes and how ....Does nicotine make memories stronger? . This project studies why memories encoded in the presence of nicotine are stronger and longer lasting than other types of memories. Its goal is to use an innovative interdisciplinary approach, including sophisticated behavioural analysis and advanced genetic tools, to show that nicotine ‘switches on’ genes that are important for long-term memory formation. The anticipated outcome is an improved understanding of basic memory consolidation processes and how they are influenced by nicotine. It is expected that this outcome will provide new insights into the persistence of cravings in tobacco dependence, and a novel perspective on epigenetic modifications that influence memory consolidation processes.Read moreRead less
Genetic, Cellular and Molecular Analysis of Cardiac Ventricular Septation. The project aims to define the blueprint for ventricular septation in the mammalian heart – how, during heart development, a single ventricle becomes divided in two by a muscular wall, thus creating left and right pumps and electrical circuits serving the body and lung circulations separately. A proprietary mouse genetic model was created and will be used to probe the cellular and molecular mechanisms of septation using n ....Genetic, Cellular and Molecular Analysis of Cardiac Ventricular Septation. The project aims to define the blueprint for ventricular septation in the mammalian heart – how, during heart development, a single ventricle becomes divided in two by a muscular wall, thus creating left and right pumps and electrical circuits serving the body and lung circulations separately. A proprietary mouse genetic model was created and will be used to probe the cellular and molecular mechanisms of septation using new technologies able to resolve biology at a single-cell level. Outcomes may include new knowledge on heart development and evolution, including how the cardiac electrical system is formed, and how cell boundaries and tissue complexity are generated. The project may advance new technologies and create new data resources.Read moreRead less
Investigating a new way in which diet impacts animal biology. This project aims to investigate the importance of a new way in which diet can alter animal biology. High fat or high sugar diets increase the binding of products of metabolism to chromosomes, which can completely alter the way that DNA is packaged and read. This project will use cell culture, rodent and fly models to identify the regions of the genome that are most affected by the new process. The project will also determine whether ....Investigating a new way in which diet impacts animal biology. This project aims to investigate the importance of a new way in which diet can alter animal biology. High fat or high sugar diets increase the binding of products of metabolism to chromosomes, which can completely alter the way that DNA is packaged and read. This project will use cell culture, rodent and fly models to identify the regions of the genome that are most affected by the new process. The project will also determine whether the cell is harmed, or in fact harnesses the process to control development or metabolism. This project has implications for our understanding of the ways in which genes interact with the environment especially in times of change.Read moreRead less