An Examination Of The Relationship Between Alcohol-related Injury (ARI) And Licensed Premises
Funder
National Health and Medical Research Council
Funding Amount
$78,686.00
Summary
There is growing interest in acute alcohol-related problems, and especially injuries. These are often experienced by young people, frequently as a consequence of intoxication or drinking in unsafe settings. Little work has been undertaken in Australia to systematically examined alcohol-related injuries (ARIs). This study will examine ARIs, identify the frequency with which such problems present to a local hospital, record the nature of the injuries, details of the person sustaining it, and the d ....There is growing interest in acute alcohol-related problems, and especially injuries. These are often experienced by young people, frequently as a consequence of intoxication or drinking in unsafe settings. Little work has been undertaken in Australia to systematically examined alcohol-related injuries (ARIs). This study will examine ARIs, identify the frequency with which such problems present to a local hospital, record the nature of the injuries, details of the person sustaining it, and the drinking location. Characteristics of drinking locations and drinking settings, in particular licensed premises, will be examined to determine their association with ARIs. Then an intervention will be undertaken in conjunction with local police, to address the conditions of the drinking environment with the aim of reducing ARIs and other alcohol-related problems stemming from licensed premises. The intervention will form part of a randomised controlled trial where licensed premises, identified through monthly police data as hot spots, receive either an intervention or act as a control. In the following month, controls receive the intervention (a cross-over design). The intervention was established in 1998 by Gold Coast police and involves police, fire and liquor licensing officers undertaking an on-site inspection and taking prescribed actions. It is hypothesised that this action should result in a decreased level of ARIs being generated from premises which receive the intervention, compared to those that do not. This is an intersectoral, collaborative project aimed at improving community safety through a concerted effort by police, health and the licensees.Read moreRead less
Investigating The Role Of The UPF3B Gene And Nonsense Mediated RNA Decay (NMD) Process In Mental Retardation.
Funder
National Health and Medical Research Council
Funding Amount
$572,710.00
Summary
Intellectual disability is a frequent and important medical problem. Genetic and environmental factors contribute about equally to the aetiology of intellectual disability. Estimated 1-3% of population suffer from a form of intellectual disability. Among the genetic factors contributing to intellectual disability are genes, and their mutations, on one of the human chromosomes, chromosome X. We have been studying human X-chromosome genes for many years and discovered in excess of 20 novel genes c ....Intellectual disability is a frequent and important medical problem. Genetic and environmental factors contribute about equally to the aetiology of intellectual disability. Estimated 1-3% of population suffer from a form of intellectual disability. Among the genetic factors contributing to intellectual disability are genes, and their mutations, on one of the human chromosomes, chromosome X. We have been studying human X-chromosome genes for many years and discovered in excess of 20 novel genes causing various forms of intellectual disability. Surprisingly the number of genes, in which mutations cause various forms of intellectual disability is unexpectedly high. Just on the human X-chromosome we expect in excess of 200 such genes, which is nearly 30% of the gene content of this chromosome. We propose to study a novel gene, UPF3B, we recently identified to be mutated in a form of intellectual disability. The normal function of this gene and its protein is known to a certain extent. The UPF3B protein plays a role of a guardian of other genes in human (and also other species) cells. The role of the UPF3B protein is to prevent erroneous genetic information to be used for the building of proteins with potentially toxic effects to the organism. In our patients this process clearly malfunctions as a consequence of the damaged UPF3B gene. We propose to shed some more light in to the molecular intricacies of this process with the aim to better understand the mechanics of the process. Families, which participate in our studies and have this gene involved will benefit from the availability of direct test. Multiple other families around the world are also likely to benefit, now or in the future.Read moreRead less
Understanding the evolution of the alternation of generations in the land plant life cycle. This project will investigate the genetic basis and evolution of the land plant life cycle, in which both haploid and diploid phases consist of complex multicellular bodies. The project's findings, which will be made using two model laboratory plants, will be applicable to all plants and will help understand important processes such as pollen and seed production.
Defining The Role Of A Novel Transcriptional Enhancer Element In Regulation Of Prox1 Expression And Endothelial Cell Identity.
Funder
National Health and Medical Research Council
Funding Amount
$706,909.00
Summary
The precise spatial and temporal control of gene expression is regulated by non-coding regions of the genome termed enhancers. Enhancers are crucial to program cell identity and have established roles in development and disease. We have identified a novel enhancer that we hypothesise controls the identity of valve endothelial cells by regulating expression of a master programmer of lymphatic endothelial cell identity, PROX1. Here we will investigate the role of this enhancer during development.
Novel mechanisms integrating the central and autonomic nervous system. This project aims to define molecular mechanisms controlling the exquisite connectivity of neurons in different parts of the body. The ability of higher-vertebrates to respond to different environmental conditions is essential for life, evolution, health, reproduction and growth, and is reliant on the autonomic nervous system. However, how the autonomic nervous system is integrated with the central nervous system to control h ....Novel mechanisms integrating the central and autonomic nervous system. This project aims to define molecular mechanisms controlling the exquisite connectivity of neurons in different parts of the body. The ability of higher-vertebrates to respond to different environmental conditions is essential for life, evolution, health, reproduction and growth, and is reliant on the autonomic nervous system. However, how the autonomic nervous system is integrated with the central nervous system to control holistic physiological responses is largely unknown. By deciphering how neural networks are formed this project aims to provide broad biological insight to wiring of the entire nervous system which is likely to have significant implications for the formation of synthetic neural networks and for regeneration.Read moreRead less
Speed of Information Processing Across the Ages: the Structure of Cognitive Abilities in Children, Adults, and the Elderly. Does speed information processing determine intelligence? The study addresses this question by examining the structure of cognitive abilities and speed of processing in children, adults, and the elderly. The project will advance theory by testing whether speed of processing mediates developmental cognitive change during childhood and old age. Outcomes include contributing t ....Speed of Information Processing Across the Ages: the Structure of Cognitive Abilities in Children, Adults, and the Elderly. Does speed information processing determine intelligence? The study addresses this question by examining the structure of cognitive abilities and speed of processing in children, adults, and the elderly. The project will advance theory by testing whether speed of processing mediates developmental cognitive change during childhood and old age. Outcomes include contributing to a complete model of cognition, laying the foundations for a future major longitudinal study which will provide evidence on the direction of causality between speed of processing measures and cognitive abilities, and provide norms for a computerised, commercial test battery.Read moreRead less
Post-translational control of cell fate decision. Deciphering the multi-layered regulation of cell fate decisions is challenging. While progress has been made in understanding the role of transcriptional regulation, the influence of post-translational modification is poorly understood. Neural precursor cell expressed developmentally down-regulated protein 4 (NEDD4)-mediated ubiquitination is absolute necessary for sex determination, a unique model of cell fate decision where gonadal cell precurs ....Post-translational control of cell fate decision. Deciphering the multi-layered regulation of cell fate decisions is challenging. While progress has been made in understanding the role of transcriptional regulation, the influence of post-translational modification is poorly understood. Neural precursor cell expressed developmentally down-regulated protein 4 (NEDD4)-mediated ubiquitination is absolute necessary for sex determination, a unique model of cell fate decision where gonadal cell precursors differentiate either along the male or the female pathway. Thus, this project aims to analyse in detail at which stage NEDD4 action is required and what are the crucial target proteins. This project could provide a deeper understanding of how post-translational modifications influence cell fate decisions during embryogenesis.Read moreRead less
Activating the female germline during plant development. This project aims to investigate the mechanistic basis for female germline formation in two plant species including barley, which is of agricultural relevance to Australia. This project’s approach will integrate novel regulatory genes and data from Arabidopsis and barley. This knowledge will provide significant benefits, such as novel reproductive strategies for crop improvement.
Discovery Early Career Researcher Award - Grant ID: DE160101394
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Early developmental influences on neocortical organisation. This project seeks to identify the influence of preceding developmental stages on the correct formation of the brain. Development is a sequence of transformations where every stage depends on the outcome of previous stages. The project intends to examine how the early sensory periphery, early-born brain circuits, and intrinsic neuronal interactions affect the subsequent organisation of the cerebral cortex – a mammal-specific brain regio ....Early developmental influences on neocortical organisation. This project seeks to identify the influence of preceding developmental stages on the correct formation of the brain. Development is a sequence of transformations where every stage depends on the outcome of previous stages. The project intends to examine how the early sensory periphery, early-born brain circuits, and intrinsic neuronal interactions affect the subsequent organisation of the cerebral cortex – a mammal-specific brain region responsible for perception, motor planning and cognition. It expects to provide novel mechanistic and conceptual insights into the process of normal brain development and more general biological phenomena, such as development and evolution. It may also provide insights into several genetic and non-genetic causes of brain malformations.Read moreRead less
How SEP-like genes determine cereal inflorescence architecture. This project aims to understand the morphological diversity of inflorescence architecture between cereal crop species. To do so, this project will identify functions and analyse the regulatory networks of conserved SEPALLATA genes (SEPs). This will enable them to determine cereal inflorescence morphogenesis of rice (branching) and barley (non-branching), representing the most important cereals. Identifying and understanding rice and ....How SEP-like genes determine cereal inflorescence architecture. This project aims to understand the morphological diversity of inflorescence architecture between cereal crop species. To do so, this project will identify functions and analyse the regulatory networks of conserved SEPALLATA genes (SEPs). This will enable them to determine cereal inflorescence morphogenesis of rice (branching) and barley (non-branching), representing the most important cereals. Identifying and understanding rice and barley SEPs, their direct targets and interactors, and how they regulate inflorescence branches and spikelets in both species is expected to provide evolutionary and developmental insights and targets to improve for crop yield. A molecular understanding of the regulatory network that underpins inflorescence shape and grain number will advance fundamental biology, and could form the basis for significant yield improvements by manipulating key points in the developmental pathway.Read moreRead less