Transforming charity to reduce persistent poverty. This project aims to produce empirical knowledge to assist charities to reduce persistent poverty in Australia. In Australia people in poverty use charity to subsidise limited incomes and survive on a day-to-day basis. Recently charities are expected to assist in disrupting poverty in addition to poverty relief. However there is limited knowledge about how charities work with people who are poor and how they can change to work better. This proje ....Transforming charity to reduce persistent poverty. This project aims to produce empirical knowledge to assist charities to reduce persistent poverty in Australia. In Australia people in poverty use charity to subsidise limited incomes and survive on a day-to-day basis. Recently charities are expected to assist in disrupting poverty in addition to poverty relief. However there is limited knowledge about how charities work with people who are poor and how they can change to work better. This project expects to provide knowledge that governments, social service providers, and charities can use to transform their work with people in poverty. Read moreRead less
Understanding and controlling neuropeptide GPCR-transducer coupling. G protein-coupled receptors (GPCRs) are physiologically essential, yet the spatiotemporal complexity of receptor function has limited our understanding of their function and success in drug development. Using a multi-disciplinary approach integrating GPCR signalling, trafficking and drug delivery, this research program aims to understand, and control, the molecular mechanisms that enable a single receptor to respond to differen ....Understanding and controlling neuropeptide GPCR-transducer coupling. G protein-coupled receptors (GPCRs) are physiologically essential, yet the spatiotemporal complexity of receptor function has limited our understanding of their function and success in drug development. Using a multi-disciplinary approach integrating GPCR signalling, trafficking and drug delivery, this research program aims to understand, and control, the molecular mechanisms that enable a single receptor to respond to different ligands to promote unique cellular processes. The anticipated outcomes include an enhanced capacity for understanding fundamental biology, and stronger national and international collaborations. It will provide significant benefits including expanded basic knowledge and advancement of drug delivery technology.Read moreRead less
Metabolic control of gene expression networks and microbiome interactions. The proposal aims to advance our understanding of how metabolism (and resulting metabolites) regulate the expression of genes, and investigate how these processes dictate the interaction of microbiota with the immune system. The project is expected to generate transformative knowledge of gene regulation, a fundamental process for cellular function, and decipher how the microbiome yeast Candida albicans interacts with immu ....Metabolic control of gene expression networks and microbiome interactions. The proposal aims to advance our understanding of how metabolism (and resulting metabolites) regulate the expression of genes, and investigate how these processes dictate the interaction of microbiota with the immune system. The project is expected to generate transformative knowledge of gene regulation, a fundamental process for cellular function, and decipher how the microbiome yeast Candida albicans interacts with immune cells and bacteria. By utilising a powerful combination of molecular and systems biology with molecular genetics and imaging, the project outcomes should foster interdisciplinary collaborations and build capacity for fundamental and applied research to benefit academia and industry, locally and globally.Read moreRead less
The transcriptome dynamics that refine eukaryotic gene expression. This project aims to understand the fundamental mechanisms of gene expression control, by exploring how cells respond to acute perturbation with changes to RNA expression and processing. Unlike the static information encoded within the genome, the information encoded in its intermediary RNA, is transient, plastic and responsive to environmental and developmental cues. This project will use new technologies encompassing RNA-bioche ....The transcriptome dynamics that refine eukaryotic gene expression. This project aims to understand the fundamental mechanisms of gene expression control, by exploring how cells respond to acute perturbation with changes to RNA expression and processing. Unlike the static information encoded within the genome, the information encoded in its intermediary RNA, is transient, plastic and responsive to environmental and developmental cues. This project will use new technologies encompassing RNA-biochemistry, Next Generation Sequencing, and bioinformatics to answer long-standing questions in RNA processing. The project expects to significantly enhance our understanding of the mechanisms underpinning gene-expression control, benefitting Australia by positioning it as a world leader in the field of RNA Biology.Read moreRead less
Uncovering microRNA decay regulation in mammalian cells. MicroRNAs (miRNAs) constitute a novel mechanism used by cells to regulate gene expression, however, very little is known about the mechanisms affecting miRNA accumulation. Characterisation of the kinetics of miRNA turnover is of paramount importance to establish the reliability of miRNAs as novel biomarkers. This project aims to characterise miRNA stability in mammalian cells, investigate mechanisms of turnover and establish their importan ....Uncovering microRNA decay regulation in mammalian cells. MicroRNAs (miRNAs) constitute a novel mechanism used by cells to regulate gene expression, however, very little is known about the mechanisms affecting miRNA accumulation. Characterisation of the kinetics of miRNA turnover is of paramount importance to establish the reliability of miRNAs as novel biomarkers. This project aims to characterise miRNA stability in mammalian cells, investigate mechanisms of turnover and establish their importance on the regulatory function of miRNAs. Such information is critical in the future development of targeted therapeutics.Read moreRead less
Transcriptional and epigenetic regulation of terminal lymphocyte differentiation and alterations of the same that lead to leukemia. In the developed world infection diseases are the number three killer behind heart disease and cancer, and huge financial effort is put into treatment and prevention. Despite this, results have often been disappointing. One cause of these poor outcomes is the lack of knowledge of how effective immune responses are generated. This project aims to better understand th ....Transcriptional and epigenetic regulation of terminal lymphocyte differentiation and alterations of the same that lead to leukemia. In the developed world infection diseases are the number three killer behind heart disease and cancer, and huge financial effort is put into treatment and prevention. Despite this, results have often been disappointing. One cause of these poor outcomes is the lack of knowledge of how effective immune responses are generated. This project aims to better understand the processes that control the generation of protective lymphocytes. It will deliver information that may enable a more targeted approach to vaccine-development and treatments of infections. As defective differentiation can also be a cause of leukemia it may also lead to targets of cancer treatment.Read moreRead less
Spatio-temporal activation of genes in cells and mice. This project aims to develop novel genetic methods and instrumentation for the local, rapid and reversible activation of genes in cells and mice. This project expects to generate highly innovative light- and sound-based technologies that will permit to study living systems on the gene-level with unprecedented precision. Expected outcomes include new research and technology capacity to broadly address fundamental biological questions and to c ....Spatio-temporal activation of genes in cells and mice. This project aims to develop novel genetic methods and instrumentation for the local, rapid and reversible activation of genes in cells and mice. This project expects to generate highly innovative light- and sound-based technologies that will permit to study living systems on the gene-level with unprecedented precision. Expected outcomes include new research and technology capacity to broadly address fundamental biological questions and to create new applied processes. This project intends to provide significant benefits, such as enhanced knowledge generation, multidisciplinary training opportunities and patentable technologies.Read moreRead less
Developing methods for the analysis of massively parallel sequencing data in family studies. This project will develop analytical methods to use the latest, high-throughput method of generating sequencing data, i.e. the letters of the human genome alphabet. These tools will be used to identify the causal mutations in families with inherited disorders, leading to diagnostic tests for these families.
Genetic networks regulating gene silencing by intronic repeat expansions . Changes in the copy number of DNA repeats are associated with phenotypic variations in several species. Expansions of DNA repeats underlie several human genetic diseases, including Friedreich’s ataxia. The molecular mechanisms that mediate these genetic abnormalities are currently unclear. This project aims to identify the novel genetic pathways and mechanisms mediating these genetic disorders. Using a plant model in an .... Genetic networks regulating gene silencing by intronic repeat expansions . Changes in the copy number of DNA repeats are associated with phenotypic variations in several species. Expansions of DNA repeats underlie several human genetic diseases, including Friedreich’s ataxia. The molecular mechanisms that mediate these genetic abnormalities are currently unclear. This project aims to identify the novel genetic pathways and mechanisms mediating these genetic disorders. Using a plant model in an innovative way this project will discover novel genes, uncover fundamental molecular mechanisms and reveal the genetic networks that govern gene silencing caused by triplet repeat expansions. This project, in addition to revealing fundamental biological mechanisms, will also have implications for human disease.
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Microscale microRNA Detection and Delivery for Effective Point-of-Care Cancer Screening and Therapeutics. MicroRNAs are short RNA molecules that play a critical regulatory role in gene expression. Recently discovered in 1993, microRNA research has since received considerable attention and is regarded as an emerging revolutionary frontier in medicine given its therapeutic ability to ‘turn off’ certain genes that lead to various diseases. Additionally, microRNA expression signatures are a strong b ....Microscale microRNA Detection and Delivery for Effective Point-of-Care Cancer Screening and Therapeutics. MicroRNAs are short RNA molecules that play a critical regulatory role in gene expression. Recently discovered in 1993, microRNA research has since received considerable attention and is regarded as an emerging revolutionary frontier in medicine given its therapeutic ability to ‘turn off’ certain genes that lead to various diseases. Additionally, microRNA expression signatures are a strong biomarker for many diseases such as cancer. This project will advance the chip-scale acoustic microcentrifugation and nebulisation technology we recently pioneered to overcome the significant hurdles currently faced in microRNA detection and delivery with the aim of developing prototype portable microdevices for early stage cancer screening and therapy.Read moreRead less