Australian Genomewide Association Study In Osteoporosis
Funder
National Health and Medical Research Council
Funding Amount
$882,722.00
Summary
Osteoporosis is a common condition in which bone strength is reduced due to reduced amount and quality of bone. Reduced bone strength means an increased risk of fracture. Osteoporotic fractures occur in 1 in 2 women and 1 in 3 men in their lifetime, and the likelihood of suffering osteoporotic fracture increases with age. Most of the risk of developing osteoporosis is genetic, but few of the genes involved have been identified. Our goal is to identify those genes.
A Genetic Study Of Schizophrenia In The Brahmin Of Tamil Nadu
Funder
National Health and Medical Research Council
Funding Amount
$267,226.00
Summary
The cause of schizophrenia is unknown, but there is good evidence that genes play a role. Geneticists do not fully understand how it is inherited, but it is very complex, and several interacting genes as well as environmental factors are probably involved. Societies such as Australia are genetically diverse because people from many different ethnic groups have intermarried. To detect susceptibility genes in this type of population, we must study very large patient samples. Alternatively, we can ....The cause of schizophrenia is unknown, but there is good evidence that genes play a role. Geneticists do not fully understand how it is inherited, but it is very complex, and several interacting genes as well as environmental factors are probably involved. Societies such as Australia are genetically diverse because people from many different ethnic groups have intermarried. To detect susceptibility genes in this type of population, we must study very large patient samples. Alternatively, we can study genetically homogenous patient samples, found in isolated gene-pool populations. One such population is the Brahmin people in Tamil Nadu, a south-eastern state of India. The Brahmin are descended from the Aryan peoples who migrated into southern India 2000 years ago. In the Hindu caste system, Brahmin are the highly educated priest class, and enjoy a privileged position in society. Traditionally, marriages among the Brahmin of Tamil Nadu have been prearranged, with a preference for first-cousin marriages. As well as this cultural and historical evidence, genetic marker studies confirm that this population is a suitable genetic isolate. In this project, genetic material (DNA) will be collected from Brahmin schizophrenic patients and their families. Diagnostic data, detailed family data, and blood samples will be gathered from 90-100 extended families, each containing two or more ill individuals. Analysis of their genetic code will enable a search for possible schizophrenia susceptibility genes and a systematic search for a mutation. If found, this will greatly improve our understanding of schizophrenia, and stimulate the search for similar genes in other samples world-wide, including Australia where schizophrenia costs $3 billion annually in terms of treatment and lost jobs. If schizophrenia genes can be found, it may be possible to find better treatments that correct the basic causes of the illness and identify factors that protect against the illness.Read moreRead less
Mapping EQTL To Dissect The Genetic Basis Of Complex Trait Variation
Funder
National Health and Medical Research Council
Funding Amount
$719,525.00
Summary
People vary in traits such as height and blood pressure and in their susceptibility to common disease. Part of these differences between individuals is because of their genetic make-up. This research is about understanding which of the genes are involved in common variation and how they work. In particular, the researchers investigate if variation in DNA sequence causes genes to be expressed more or less and how gene expression affects risk of disease.
Genetic Associations Of Early Retinal Pathologic Phenotypes: Data Pooling And Meta-analyses Of Multiple Populations
Funder
National Health and Medical Research Council
Funding Amount
$736,481.00
Summary
We aim to use data already collected from multiple population-based studies to investigate the likely pathogeneses of early retinal phenotypes that are either markers for cardiovascular risk or precursors of a blinding condition. Understanding if there are genetic susceptibilities for these phenotypes, and if so, how they together with environmental exposures jointly influence the occurrence of the diseases may be key to reduce the burden from cardiovascular disease and blindness.
The Influence Of Alpha Actinins On Human Performance
Funder
National Health and Medical Research Council
Funding Amount
$542,500.00
Summary
There is a wide variation in skeletal muscle function in the general population. At one end of the spectrum are elite athletes who excel in a specialised area of sprint, power or endurance performance, while at the other end of the spectrum are individuals with muscle weakness due to inherited muscle disease. Part of this variation in human muscle performance is due to the genetic makeup of the individual. For example, world class sprinters have muscles which are genetically predisposed to gener ....There is a wide variation in skeletal muscle function in the general population. At one end of the spectrum are elite athletes who excel in a specialised area of sprint, power or endurance performance, while at the other end of the spectrum are individuals with muscle weakness due to inherited muscle disease. Part of this variation in human muscle performance is due to the genetic makeup of the individual. For example, world class sprinters have muscles which are genetically predisposed to generate maximal force at high speed. Similarly, the severity of muscle disease in an affected individual is influenced, in part, by other genes that affect normal muscle performance. The genes responsible for normal variations in muscle function in humans are unknown. The alpha-actinins are structural components of skeletal muscle. The two forms of alpha-actinin in skeletal muscle interact with a number of proteins involved in human muscle disease and thus likely contribute to the severity of muscle weakness in affected patients. Alpha-actinin-3 is present only in fast (type 2) fibres - the muscle fibres responsible for perfomance at high speed. We have identified a genetic change that results in absence of this protein in 1 in 5 people in the general population, without causing disease. We now have evidence that this genetic change, and hence whether or not muscle contains alpha-actinin-3, influences muscle performance in elite athletes. We will now use a variety of approaches to study the alpha-actinins in normal and diseased skeletal muscle. We will study the effect of changes (mutations) in the alpha-actinins in the muscle cells grown in the laboratory and in animal models. This work will impact on our understanding of how normal skeletal muscle functions, and the factors that influence human diversity in the general population.Read moreRead less
The Influence Of Alpha Actinins On Human Performance In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$480,989.00
Summary
We have identified a common genetic variation that results in absence of the fast muscle fibre protein, a-actinin-3, in over 1 billion people worldwide. Loss of a-actinin-3 influences elite athletic performance and skeletal muscle function in the general population by altering efficiency of muscle metabolism. We will now study mice and humans to determine how a-actinin-3 deficiency influences normal muscle function with age, response to exercise and the severity of human muscle disease.