Australian Centre For Vertebrate Mutation Detection (ACVMD)
Funder
National Health and Medical Research Council
Funding Amount
$1,611,794.00
Summary
Over the last 20 years, generation and analysis of genetically modified animals has proven to be an important step in the transition from in vitro studies of gene function to in vivo studies and eventually clinical research. The remarkable parallels between the human, mouse and zebrafish genomes means that there are now many examples of mutations that cause or modify disease in humans, and which lead to similar phenotypes when present in mice and zebrafish. Until recently, the prime method of in ....Over the last 20 years, generation and analysis of genetically modified animals has proven to be an important step in the transition from in vitro studies of gene function to in vivo studies and eventually clinical research. The remarkable parallels between the human, mouse and zebrafish genomes means that there are now many examples of mutations that cause or modify disease in humans, and which lead to similar phenotypes when present in mice and zebrafish. Until recently, the prime method of introducing mutations into specific genes of interest in the mouse (although still unavailable in the fish) was via homologous recombination, and the principal classes of mutations induced were large deletions or insertions. This type of mutation rarely occurs in humans. Rather, point mutations and single-nucleotide polymorphisms are the prevalent form of genetic variation. An alternative approach to the development of mouse models with the more relevant point mutations is TILLING (Targeting Induced Local Lesions IN Genomes). The goal of this Enabling Grant is to make TILLING technology accessible to the Australian research community and in doing so promote movement of research from the in vitro setting into animal models of disease.Read moreRead less
Novel Skeletal Muscle Enriched Genes In Muscle Biology And Disease
Funder
National Health and Medical Research Council
Funding Amount
$900,467.00
Summary
Each year hundreds of Australians are born with genetic muscle diseases, however, current methods fail to identify the causative disease gene in ~50% of patients. Here we will use expression patterns in skeletal muscle to prioritize novel candidate disease causing genes. We will functionally test the role of genes expressed in skeletal muscle cells using novel experimental assays. Uniquely, we will for the first time incorporate a novel class of gene (long non-coding RNAs) into our study.
Age Related Macular Degeneration: Novel Ways To Reduce Vision Loss Through Understanding A High-risk Phenotype And Validating A New Early Intervention.
Funder
National Health and Medical Research Council
Funding Amount
$2,156,372.00
Summary
Age-related macular degeneration (AMD) is the leading cause of vision loss in older individuals. AMD eyes with reticular pseudo drusen (RPD) are now recognised as at high-risk of faster progression to vision loss. Identifying the underlying mechanisms driving RPD is crucial for to identify specifically targeted therapeutic options. Validating our subthreshold laser trial, and our early endpoint will offer the first proven intervention to slow AMD progression to vision loss.
Gene Discovery And Functional Studies To Reveal Mechanisms Underlying Mitochondrial Respiratory Chain Disorders.
Funder
National Health and Medical Research Council
Funding Amount
$381,343.00
Summary
Mitochondrial respiratory chain disorders are a devastating group of disorders, potentially affecting any organ of the body, with no effective therapies currently available. The majority of these disorders have a childhood onset and the genetic basis for most of them is unknown. Identification of the genes responsible for these disorders in specific families would greatly improve the accuracy and usefulness of genetic counselling, and an understanding of their biology may assist the development ....Mitochondrial respiratory chain disorders are a devastating group of disorders, potentially affecting any organ of the body, with no effective therapies currently available. The majority of these disorders have a childhood onset and the genetic basis for most of them is unknown. Identification of the genes responsible for these disorders in specific families would greatly improve the accuracy and usefulness of genetic counselling, and an understanding of their biology may assist the development of effective therapies.Read moreRead less
Advancing Diagnostics For The Congenital Muscular Dystrophies
Funder
National Health and Medical Research Council
Funding Amount
$69,500.00
Summary
The congenital muscular dystrophies are muscle diseases with onset in infancy. They cause slowly progressive weakness and increasing disability. For more than half, a specific diagnosis cannot be achieved with current diagnostic techniques, frequently generating significant anxiety for families. This research will use an exciting new genetic technique called exome sequencing to provide fundamental insights into the genetic basis of these diseases, thus improving diagnosis, counselling and treatm ....The congenital muscular dystrophies are muscle diseases with onset in infancy. They cause slowly progressive weakness and increasing disability. For more than half, a specific diagnosis cannot be achieved with current diagnostic techniques, frequently generating significant anxiety for families. This research will use an exciting new genetic technique called exome sequencing to provide fundamental insights into the genetic basis of these diseases, thus improving diagnosis, counselling and treatment.Read moreRead less
Prevalence, Phenotype And Genotype Of Common Sleep Disorders
Funder
National Health and Medical Research Council
Funding Amount
$1,465,164.00
Summary
There is a critical need for more information on the prevalence and genetic basis of sleep disorders. The proposed study will leverage off data already collected from participants of the WA (Raine) pregnancy cohort, an internationally unique longitudinal study of 2,868 individuals followed over the last 23 yrs with comprehensive assessments starting in utero, continuing through childhood and into early adulthood.The study will replicate this battery of tests in the parents of these young adults.
Integrating Genotype And Phenotype In Clinical Molecular Epidemiology
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
With an ever increasing availability of virus genetic sequences and clinical data, we can apply new approaches to better understand and combat infectious diseases. This study aims to develop new state-of-the-art tools to answer such questions as: Do viruses evolves to become more virulent? How does drug resistance emerge and spread through virus populations? And more generally, how does virus genetics contribute to the variation in disease outcomes?
Identifying Glaucoma Risk Variants In The Norfolk Island Genetic Isolate
Funder
National Health and Medical Research Council
Funding Amount
$658,447.00
Summary
Primary open angle glaucoma is the most common form of glaucoma. In this project we will focus on the identification of functional genetic variants influencing development of this disorder, using a powerful whole exome sequencing approach in a large multigenerational pedigree from the Norfolk Island population isolate. The identification of genes influencing glaucoma development would provide invaluable clues to aid in defining the pathophysiology of this common disease.