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
Dissecting the shared genetic architecture of psychiatric and psychological traits with application to prediction of genetic risk. Identification of the early phase of psychiatric disorders is considered critical for early intervention which is the essence of prevention. At present, the main obstacle to targeted early intervention strategies in psychiatric disorders is the non-specific nature of early stage symptoms. Many psychiatric disorders present with symptoms of depressed mood and anxiety ....Dissecting the shared genetic architecture of psychiatric and psychological traits with application to prediction of genetic risk. Identification of the early phase of psychiatric disorders is considered critical for early intervention which is the essence of prevention. At present, the main obstacle to targeted early intervention strategies in psychiatric disorders is the non-specific nature of early stage symptoms. Many psychiatric disorders present with symptoms of depressed mood and anxiety in the early stages, yet best intervention treatments are dependent on the final (unknown) diagnosed disorder. Prediction of genetic risk is likely to make an important contribution for identification of individuals at risk of specific psychiatric disorders so that the best early intervention treatment can be administered. Read moreRead less
The Genetic Basis of Differences Between the Sexes. Improved medical interventions against genetic disorders like cancer are made possible by advances in fundamental understanding of gene function and, especially, genetic mechanisms (like genomic imprinting) that are directly implicated in these disorders. Furthermore, an understanding of environmental effects within and across generations is vital in an age of global climate change. Recent theory and evidence suggest that research on sexually d ....The Genetic Basis of Differences Between the Sexes. Improved medical interventions against genetic disorders like cancer are made possible by advances in fundamental understanding of gene function and, especially, genetic mechanisms (like genomic imprinting) that are directly implicated in these disorders. Furthermore, an understanding of environmental effects within and across generations is vital in an age of global climate change. Recent theory and evidence suggest that research on sexually dimorphic traits may hold a key to a better understanding of these phenomena. The proposed research will strengthen Australia's position as leader in evolutionary genetics, enhance knowledge of native fauna, and improve our understanding of biological phenomena that affect human health. Read moreRead less
Searching for genes influencing reading ability using multivariate genomic linkage analysis and allelic association analysis. Following from the replicated linkages of reading disability to loci on chromosomes 6 & 18, this study examines linkage of these same regions to a range of reading measures in an unselected sample of twins and siblings. Preliminary univariate linkage scans of two neuropsychological reading indices suggest linkage to loci on two chromosomes. Our next step is to include rea ....Searching for genes influencing reading ability using multivariate genomic linkage analysis and allelic association analysis. Following from the replicated linkages of reading disability to loci on chromosomes 6 & 18, this study examines linkage of these same regions to a range of reading measures in an unselected sample of twins and siblings. Preliminary univariate linkage scans of two neuropsychological reading indices suggest linkage to loci on two chromosomes. Our next step is to include reading measures of orthographic skill and phonological decoding in a multivariate linkage analysis with the other reading indices and with measures of IQ and academic achievement. Multivariate linkage increases the power of detecting quantitative traits and assists in defining the phenotype related to the locus. We then aim to identify the functional gene through allelic association analysis. Identification of QTLs for reading ability may lead to practical outcomes such as the behavioural and biomedical management of reading deficits, which may then benefit areas such as scholastic achievement.Read moreRead less
Locating genes for elementary and complex cognitive abilities using genetic linkage and association analysis. This study aims to identify genes influencing cognitive ability by using multiple measures of cognition in combination with genetic linkage and association analyses. Multiple measures can increase the statistical power of finding a gene and provide a more comprehensive framework for charting the functional role of genes. The outcome of locating genes for cognition will provide insight i ....Locating genes for elementary and complex cognitive abilities using genetic linkage and association analysis. This study aims to identify genes influencing cognitive ability by using multiple measures of cognition in combination with genetic linkage and association analyses. Multiple measures can increase the statistical power of finding a gene and provide a more comprehensive framework for charting the functional role of genes. The outcome of locating genes for cognition will provide insight into biological functions of the brain which affect human intellect, and will have downstream practical applications which could include better educational, behavioural and biomedical management of learning and memory disorders, and of other intellectual disabilities.Read moreRead less
Quantitative and Molecular Genetic Analysis of Cognition. This study attempts to unravel the pathways through which genes may exert their influence on cognitive processes by identifying some of the genes associated with normal variation in cognitive ability. Using the cognitive phenotypes we have collected, both linkage and association analysis will be used to find QTLs (locations on the chromosomes at which specific genes contribute to a quantitative trait) associated with processing speed and ....Quantitative and Molecular Genetic Analysis of Cognition. This study attempts to unravel the pathways through which genes may exert their influence on cognitive processes by identifying some of the genes associated with normal variation in cognitive ability. Using the cognitive phenotypes we have collected, both linkage and association analysis will be used to find QTLs (locations on the chromosomes at which specific genes contribute to a quantitative trait) associated with processing speed and other specific abilities. The research will enhance our understanding of the biological mechanisms influencing brain function and paves the way for the genetic dissection of the brain.Read moreRead less
Locating genes for cognitive traits using linkage and association analyses. Our study is the 1st in the world to find significant linkage for IQ.The dataset is one of only 2 such in the world (based on sample size, range & type of measures).Identifying genes for cognitive ability using healthy subjects is important in understanding individual differences in normal cognitive functioning, but it may also provide clues into the underlying mechanisms of impaired cognitive ability. Diverging conditio ....Locating genes for cognitive traits using linkage and association analyses. Our study is the 1st in the world to find significant linkage for IQ.The dataset is one of only 2 such in the world (based on sample size, range & type of measures).Identifying genes for cognitive ability using healthy subjects is important in understanding individual differences in normal cognitive functioning, but it may also provide clues into the underlying mechanisms of impaired cognitive ability. Diverging conditions like reading disorder, schizophrenia, depression, alcoholism, and dementia all share deficits in cognitive ability.Downstream practical applications of identifying 'genes for cognition' include better educational, behavioural and biomedical management of learning and memory disorders, and other intellectual disabilities.Read moreRead less
Identifying genes for cognition. We have established a large twin sample and are the Australian arm of an international consortium to identify genes for cognition. This work will transform our understanding of brain functions that affect normal cognitive functioning. It has potentially enormous public health significance by providing clues into the underlying mechanisms of impaired cognitive ability. Many different conditions affect people's ability to think and remember (e.g. schizophrenia, dem ....Identifying genes for cognition. We have established a large twin sample and are the Australian arm of an international consortium to identify genes for cognition. This work will transform our understanding of brain functions that affect normal cognitive functioning. It has potentially enormous public health significance by providing clues into the underlying mechanisms of impaired cognitive ability. Many different conditions affect people's ability to think and remember (e.g. schizophrenia, dementia). By understanding how cognitive processes work in healthy individuals, we can better identify the fundamental mechanisms of impaired cognitive ability. This may have future applications for treating brain dysfunction, and managing memory of intellectual disabilities.Read moreRead less