Disease Gene Discovery And Improved Genetic Diagnosis In Neuromuscular Disorders
Funder
National Health and Medical Research Council
Funding Amount
$473,321.00
Summary
Paediatric nerve and muscle disorders result in weakness, chronic disability and often early death. Over half of all affected children do not yet have a genetic diagnosis. This project will use advanced sequencing technology to increase genetic diagnosis rates and identify new disease-causing genes. This will result in improved patient care and a better understanding of the biological pathways altered by these disorders. It will also facilitate the identification of targets for future therapies.
An integrated platform built on efficient informatics concepts already implemented in international research infrastructures for large-scale data management, providing access to federated databases/registries, biobank catalogues, harmonised - omics profiles, and bioinformatics tools. Patient data types will be linked via a unique identifier “RD-ID” developed jointly with the US NIH. RD-Connect is a primary enabler for IRDiRC funded research to improve treatment and management of rare diseases
The Effects Of ?-actinin-3 On Muscle Metabolism, Human Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$643,060.00
Summary
We have identified a common genetic variant that results in absence of the fast muscle fibre protein ?-actinin-3 in more than one billion humans worldwide. Loss of ?-actinin-3 influences elite athletic performance, muscle bulk and strength in the general population, response to diet and exercise, and susceptibility to obesity and developing type 2 diabetes. We have also demonstrated that ?-actinin-3 influence disease severity in a variety of inherited and acquired muscle disorders.
Neuromuscular Disorders: Gene Discovery And Disease Mechanism
Funder
National Health and Medical Research Council
Funding Amount
$880,569.00
Summary
Inherited muscle disorders lead to lifelong disability and early death. Less that 50% of patients get an accurate diagnosis and there are currently no effective therapies. In this project, two leading Australian laboratories will use state-of-the-art methods to identify novel disease genes and how they cause muscle weakness. This research will have immediate outcomes to diagnosis, management and prevention and for the development of new therapeutic agents.