Nanoliposomal delivery of docosahexaenoic acid (DHA) to neuronal cells. Omega-3 fatty acids such as docosahexaenoic acid (DHA) are essential for brain function. They are effective as adjunct treatments for depression, but at high doses. The project will develop nanoliposomes to target delivery of DHA to brain cells. Efficient delivery of DHA to brain cells will increase its effectiveness as a dietary supplement and lessen the burden of disease.
Linking mutant zebrafish phenotypes with their underlying genetic lesions. Zebrafish mutants have been generated with many interesting abnormalities, but to understand these abnormalities, the defective genes must be identified by positional cloning. We seek to identify the defective genes underpinning four mutants. Mutant #562 develops a normal nervous system which then undergoes rapid degeneration. The mutant flotte lotte has abnormal gut development. Two mutants with defective early blood for ....Linking mutant zebrafish phenotypes with their underlying genetic lesions. Zebrafish mutants have been generated with many interesting abnormalities, but to understand these abnormalities, the defective genes must be identified by positional cloning. We seek to identify the defective genes underpinning four mutants. Mutant #562 develops a normal nervous system which then undergoes rapid degeneration. The mutant flotte lotte has abnormal gut development. Two mutants with defective early blood formation will be studied. We will establish techniques for several steps that will be useful for all zebrafish mapping projects. We expect the genetic characterization of these mutants to provide new insights into nerve cell survival, gut development, and blood formation.Read moreRead less
Statistical Methods for Discovering Ribonucleic acids (RNAs) contributing to human diseases and phenotypes. Identifying the causative genetic factors involved in quantitative phenotypes and diseases is a major goal of biology in the 21st century and beyond. A crucial step towards this goal is identifying and classifying the functional non-protein-coding Ribonucleic acids (RNAs) encoded in the human genome. This project will make major contributions to international efforts in this area by identi ....Statistical Methods for Discovering Ribonucleic acids (RNAs) contributing to human diseases and phenotypes. Identifying the causative genetic factors involved in quantitative phenotypes and diseases is a major goal of biology in the 21st century and beyond. A crucial step towards this goal is identifying and classifying the functional non-protein-coding Ribonucleic acids (RNAs) encoded in the human genome. This project will make major contributions to international efforts in this area by identifying RNA molecules that contribute to quantitative phenotypes including susceptibility to disease. As such, it will directly benefit fundamental science via the discovery and classification of new molecules. Indirectly, it will lead to breakthroughs in biology, and consequently to major medical and pharmaceutical advances in the diagnosis and treatment of genetic disease.Read moreRead less
Brain sodium channel: functional role of developmentally regulated alternative splicing. This project will identify the roles of neonatal and adult forms of a sodium channel in the function of neurons in the developing brain. Sodium channels are vital for brain function and this study will improve our understanding of the function of healthy brain as well as of underlying mechanisms of some neurological disorders.
Communicating genetic information in families: practical, legal, social and ethical issues. The outcomes of this study, will give evidence as to whether or not people do pass on genetic risk information to relatives, how they do it, what the barriers are, what their preferences are. It will also provide data so that mechanisms for best practice communication and clear guidelines for legal and health professionals can be developed. Effective communication and exchange of genetic risk information ....Communicating genetic information in families: practical, legal, social and ethical issues. The outcomes of this study, will give evidence as to whether or not people do pass on genetic risk information to relatives, how they do it, what the barriers are, what their preferences are. It will also provide data so that mechanisms for best practice communication and clear guidelines for legal and health professionals can be developed. Effective communication and exchange of genetic risk information will benefit individual health and the health of future generations.Read moreRead less
Molecular Investigations into Polyglutamine Repeat Proteins. The proposed research program, will provide significant fundamental insight into the processes that control protein aggregation and disease. Investigating processes central to protein aggregation is important, as it will further our understanding of these critically-important events and our understanding of disease processes. Such knowledge will increase Australia's international research standing, as well as having the potential to ....Molecular Investigations into Polyglutamine Repeat Proteins. The proposed research program, will provide significant fundamental insight into the processes that control protein aggregation and disease. Investigating processes central to protein aggregation is important, as it will further our understanding of these critically-important events and our understanding of disease processes. Such knowledge will increase Australia's international research standing, as well as having the potential to generate novel therapies, that prevent neurodegeneration.Read moreRead less
Analysing the detrimental effects of polyglutamine expansion. The proposed research program, will provide significant fundamental insight into the processes that control protein aggregation and its link with disease. Investigating processes central to protein aggregation is important as it will deepen our understanding of how proteins inappropriately change shape and our understanding of disease processes. Such knowledge will increase Australia's international research standing, as well as ha ....Analysing the detrimental effects of polyglutamine expansion. The proposed research program, will provide significant fundamental insight into the processes that control protein aggregation and its link with disease. Investigating processes central to protein aggregation is important as it will deepen our understanding of how proteins inappropriately change shape and our understanding of disease processes. Such knowledge will increase Australia's international research standing, as well as having the potential to generate novel therapies, that prevent neurodegeneration.Read moreRead less
How does timing affect mammalian brain development and evolution? This project aims to generate fundamental knowledge on the origin of diversity in mammalian brain circuits by studying development of marsupials and rodents. The expected outcome is to elucidate how differences in the timing, rate and sequence of development of gene expression, cell differentiation and circuit formation can relate to the origin of key evolutionary innovations in the mammalian brain. The significance of understandi ....How does timing affect mammalian brain development and evolution? This project aims to generate fundamental knowledge on the origin of diversity in mammalian brain circuits by studying development of marsupials and rodents. The expected outcome is to elucidate how differences in the timing, rate and sequence of development of gene expression, cell differentiation and circuit formation can relate to the origin of key evolutionary innovations in the mammalian brain. The significance of understanding the dynamics of developmental systems that shape complex brain traits includes establishing new developmental paradigms in evolutionary theory, generating new tools to investigate and manipulate brain gene expression in vivo, and the potential discovery of the causes of neurodevelopmental dysfunction.Read moreRead less
Understanding and exploiting bacterial sulfatases. Bacterial sulfatases participate in environmental nutrient cycling and are implicated in bacterial pathogenesis mechanisms. These enzymes catalyze the hydrolysis of sulfate esters and possess an unusual posttranslational active-site modification where a cysteine residue is oxidized to formylglycine. We will study the mechanism of these enzymes in detail and design inhibitors that exploit the reactivity of this aminoacid. This work has significan ....Understanding and exploiting bacterial sulfatases. Bacterial sulfatases participate in environmental nutrient cycling and are implicated in bacterial pathogenesis mechanisms. These enzymes catalyze the hydrolysis of sulfate esters and possess an unusual posttranslational active-site modification where a cysteine residue is oxidized to formylglycine. We will study the mechanism of these enzymes in detail and design inhibitors that exploit the reactivity of this aminoacid. This work has significance because of application to areas that include the treatment of cancer and bacterial infections. Additionally, we will clone novel carbohydrate sulfatases from the heparin-degrading bacterium Flavobacterium heparinum. These sulfatases will have use in biotechnology for characterization of sulfated glycoconjugates.Read moreRead less
Elucidating the neural pathways and genetic basis of speech. The project will elucidate the biological basis of speech, a unique feature of the human condition. The project will do this by i) discovering genes associated with speech disorder and ii) defining the neural pathways associated with speech production. This study will address critical questions regarding gene, brain and behaviour relationships in speech.