Identification Of Genes For X-linked Mental Retardation.
Funder
National Health and Medical Research Council
Funding Amount
$675,228.00
Summary
We propose to identify novel heritable causes of intellectual disability using 22 large and well-characterised families from Australia. In these families we have refined the location of the genetic defect to the chromosome X and excluded the contribution of all so far known genes. We will achieve this using the technology of massive parallel sequencing. At the completion of the project we will have identified novel causes of intellectual disability and devised tests to identify them.
Understanding recidivism and repeat incarceration among young male offenders: a biographical and longitudinal approach. The research focuses on the group of offenders who, as a cohort, annually commit the most crime within Australia. The production of longitudinal qualitative data about individual experiences of secure care, release, and imprisonment, will provide a foundation for empirically driven policies and debates in the area of youth crime and incarceration for each state and territory. A ....Understanding recidivism and repeat incarceration among young male offenders: a biographical and longitudinal approach. The research focuses on the group of offenders who, as a cohort, annually commit the most crime within Australia. The production of longitudinal qualitative data about individual experiences of secure care, release, and imprisonment, will provide a foundation for empirically driven policies and debates in the area of youth crime and incarceration for each state and territory. Accordingly, the community will benefit through the generation of new possibilities for intervening in cycles of persistent offending and repeat custodial sentences. This has major social, cultural and economic implications. Read moreRead less
Hidden complexity in microRNA function. This project aims to determine the extent to which microRNAs function through “non-canonical” mechanisms within cell nuclei, how their roles are expanded by naturally occurring sequence variation and how their activity is controlled by little known families of genes that sequester and inhibit their availability. The knowledge generated is significant as microRNAs regulate the expression of virtually all genes and biological processes, yet these mechanisms ....Hidden complexity in microRNA function. This project aims to determine the extent to which microRNAs function through “non-canonical” mechanisms within cell nuclei, how their roles are expanded by naturally occurring sequence variation and how their activity is controlled by little known families of genes that sequester and inhibit their availability. The knowledge generated is significant as microRNAs regulate the expression of virtually all genes and biological processes, yet these mechanisms of function remain poorly characterised and seldom considered. The expected outcome of better understanding mechanisms through which microRNAs work should provide significant benefit to safe and effective development of microRNAs for future agricultural or therapeutic application.Read moreRead less
Transcriptional regulation by microRNAs. This project aims to better understand microRNAs, which are of central importance to how genes are regulated. Despite recent data indicating microRNAs may also play more extensive and diverse roles as nuclear regulators of gene transcription, research has been restricted to their well known mechanism of action in the cytoplasm where they post transcriptionally silence genes. This project will investigate the potential for microRNAs to regulate transcripti ....Transcriptional regulation by microRNAs. This project aims to better understand microRNAs, which are of central importance to how genes are regulated. Despite recent data indicating microRNAs may also play more extensive and diverse roles as nuclear regulators of gene transcription, research has been restricted to their well known mechanism of action in the cytoplasm where they post transcriptionally silence genes. This project will investigate the potential for microRNAs to regulate transcription on a genome-wide scale and will thereby reveal the full extent of mechanisms by which these important genetic switches control gene expression networks the characteristics of cells. This is of fundamental significance to our understanding of gene regulation.Read moreRead less
Near Infrared (IR) Laser Dyes for Latent Fingermark Detection. This project will enable Australian law enforcement agencies to recover latent fingerprints from difficult surfaces through the use of near infrared dyes. The project will allow the recovery of fingerprints from a scene which would otherwise be lost to an investigation. We will provide new fingerprint development techniques and imaging methods to law enforcement agencies, enhancing their ability to identify a perpetrator and thereb ....Near Infrared (IR) Laser Dyes for Latent Fingermark Detection. This project will enable Australian law enforcement agencies to recover latent fingerprints from difficult surfaces through the use of near infrared dyes. The project will allow the recovery of fingerprints from a scene which would otherwise be lost to an investigation. We will provide new fingerprint development techniques and imaging methods to law enforcement agencies, enhancing their ability to identify a perpetrator and thereby reducing crime rates.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
Suicide Terrorism: The Use of Life as a Weapon. Bali attacks were a powerful reminder that Australians are not immune from terrorism. Suicide terrorism is the most lethal form of terrorism. It constitutes 3 % of all terrorist attacks but accounts for 48 % of all deaths. Australia's involvement in Afghanistan, Iraq and East Timor has made Australia a more likely terrorist target. An informed understanding of suicide terrorism in our region would assist in developing appropriate policies for prote ....Suicide Terrorism: The Use of Life as a Weapon. Bali attacks were a powerful reminder that Australians are not immune from terrorism. Suicide terrorism is the most lethal form of terrorism. It constitutes 3 % of all terrorist attacks but accounts for 48 % of all deaths. Australia's involvement in Afghanistan, Iraq and East Timor has made Australia a more likely terrorist target. An informed understanding of suicide terrorism in our region would assist in developing appropriate policies for protecting Australia from terrorism. The research will also contribute to evaluation of costs and benefits of Australian government policies of democratisation in the region and War on Terror.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100804
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Controlling chloride in plants. This project aims to discover novel components that control how plants acquire and manage chloride. Chloride is one of the two ions that commonly cause salt stress, which is a major threat to Australia’s agriculture. Regions affected by salinity are increasing worldwide due to changing weather patterns and poor land management. Knowledge of plant chloride management is underdeveloped, despite the reduction in crop yield caused by high chloride accumulation. The an ....Controlling chloride in plants. This project aims to discover novel components that control how plants acquire and manage chloride. Chloride is one of the two ions that commonly cause salt stress, which is a major threat to Australia’s agriculture. Regions affected by salinity are increasing worldwide due to changing weather patterns and poor land management. Knowledge of plant chloride management is underdeveloped, despite the reduction in crop yield caused by high chloride accumulation. The anticipated outcome of this project will inform strategies aimed at selecting for optimised chloride management traits to generate crops with improved yield.Read moreRead less
Evolution and function of sex chromosomes and genes in mammalian reproduction. This project will ensure Australian leadership in research of reproductive biology and genomics in platypus and echidna. As our most distant relatives, these iconic species provide an understanding of human genes contributing to medical conditions involved in sexual development, infertility and ovarian cancer.
Transcription factor nuclear residency as a driver of gene expression. Persistently active proteins can stay in the nucleus to drive cell growth and prevent cell death. This project will define how one specific active protein can remain in the nucleus and regulate gene expression through the action of unique ribonucleic acid (RNA) molecules. The results will enable persistent gene activation to be manipulated in cancer.