Early Molecular Causes Of Pathological Cardiac Hypertrophy And Failure
Funder
National Health and Medical Research Council
Funding Amount
$311,860.00
Summary
Pathological increase in heart size is a common condition in Australia. Small regulatory RNAs are now known to have a role in the normal development of the heart. Therefore we want to identify and then test the use of small RNA molecules as prevention and therapy for heart enlargement in an animal model. We will also identify different combinations of changes in the DNA sequence that could be used as markers for the predisposition of increased heart.
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.
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