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.
Understanding the molecular mechanisms of intellectual disability. Intellectual disability is frequent in the population, with one in every fifty people in the world directly affected. This project will improve our understanding of the correct development and function of the brain required for cognition by investigating specific roles and regulation of key molecules involved.
Identifying Mitochondrial Genome Variants Associated With Familial Migraine Susceptibility
Funder
National Health and Medical Research Council
Funding Amount
$443,273.00
Summary
New therapeutic targets for migraine are desperately needed. Although studies have identified some migraine genes there remains considerable underlying genetic variation to be characterised. This study aims to identify functional variants in the mitochondrial genome that contribute to migraine susceptibility, utilising the isolated Norfolk Island population. Outcomes will determine the significance of the variants identified, potentially leading to new diagnostics.
Identifying Novel Gene Mutations For Molecular Diagnosis Of Familial Hemiplegic Migraine
Funder
National Health and Medical Research Council
Funding Amount
$623,460.00
Summary
This proposal aims to identify novel FHM genes by undertaking an NGS screen of the whole exome of 209 FHM patient samples. We will test the pathological relevance of detected novel mutations by functional analysis in human cell models and using patient-specific stem cell techniques. Using whole genome NGS technology to identify novel mutations will assist in the design and development of a comprehensive NGS approach to diagnose and differentiate this severe neurological disorder.
Perceptual suppression mechanisms in the Drosophila brain. This project will investigate common processes underlying three means to losing conscious perception: selective attention, sleep and general anaesthesia. By studying these suppression mechanisms in a genetic model, the fly Drosophila melanogaster, fundamental processes will be highlighted that are required in the brain for maintaining perception in general.
Nemaline myopathy is a neuromuscular condition characterised by muscle weakness, low muscle tone and the finding of nemaline bodies or rods on muscle biopsy. This study encompasses a natural history study of nemaline myopathy, genetic diagnosis and gene discovery using new methods of genetic testing, characterisation of a new disease gene for this condition, and reviewing patient experience with tyrosine, a medication commonly used in patients with nemaline myopathy.
Massive Parallel Sequencing In The Genetics Of Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$451,716.00
Summary
Epilepsy is a serious disorder which affects approximately 2% of the population at some stage in their life and around 30% of patients do not gain adequate control of their seizures with medications presently available. Approximately 70% of epilepsy in inherited and so far the majority of the genetic causes are yet to be discovered. My group aims to identify new epilepsy genes. This leads to improved diagnosis, treatment and counseling for patients and increased understanding of the biological m ....Epilepsy is a serious disorder which affects approximately 2% of the population at some stage in their life and around 30% of patients do not gain adequate control of their seizures with medications presently available. Approximately 70% of epilepsy in inherited and so far the majority of the genetic causes are yet to be discovered. My group aims to identify new epilepsy genes. This leads to improved diagnosis, treatment and counseling for patients and increased understanding of the biological mechanisms underlying seizures.Read moreRead less
Elucidating the molecular mechanisms underlying migraine and endometriosis via genetic dissection. The research aims to identify genetic variants underlying migraine and endometriosis susceptibility. Advances in the genetics of these common and painful disorders, including identification of genetic biomarkers (genetic variations that can predict disease susceptibility, disease outcome, or treatment response), will offer better rationales for scientific enquiry, helping the discovery of new treat ....Elucidating the molecular mechanisms underlying migraine and endometriosis via genetic dissection. The research aims to identify genetic variants underlying migraine and endometriosis susceptibility. Advances in the genetics of these common and painful disorders, including identification of genetic biomarkers (genetic variations that can predict disease susceptibility, disease outcome, or treatment response), will offer better rationales for scientific enquiry, helping the discovery of new treatment pathways and improve predictions of drug efficacy and safety. Thus providing improved treatment strategies for the individual sufferer and reduce the direct medical and indirect economic costs to individual sufferers as well as to the general community.Read moreRead less