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.
Risk Factors Associated With The Expansion Of CGG Repeat Sequences In The FMR1 (fragile X) Gene: A Study In Tasmania
Funder
National Health and Medical Research Council
Funding Amount
$246,020.00
Summary
This study will identify the risk factors that lie in an individual's DNA profile for a disease called fragile X syndrome. This disease is the most common form of intellectual disability that runs in families caused by an unusual form of change in a particular gene called FMR1, whereby a very short sequence of DNA in a gene expands by repeating itself to such an extent that once it reaches a certain size the whole gene stops working and the disease occurs. The expansion in the gene is not unifor ....This study will identify the risk factors that lie in an individual's DNA profile for a disease called fragile X syndrome. This disease is the most common form of intellectual disability that runs in families caused by an unusual form of change in a particular gene called FMR1, whereby a very short sequence of DNA in a gene expands by repeating itself to such an extent that once it reaches a certain size the whole gene stops working and the disease occurs. The expansion in the gene is not uniform across the generations, and only occurs when passed on from the mother to her offspring. However, many females carrying only a short sequence may pass on, for unknown reasons, either a large expanded sequence leading to disease, or one similar in size to her own. This complexity in the progression of the number of CGG repeats means that there is a relatively large number of mothers, ~1 in 300, who are quite normal but at risk of having an affected offspring. The factors that trigger this expansion in the DNA are presently not well understood, but a number of genetic markers in the FMR1 gene have been implicated. This study will assess the contribution of an array of these genetic markers in determining the risk of expansion of the short repeat from mother to offspring and hence the risk of fragile X. Conducting this study in Tasmania has two advantages. First, by having access to genealogical records that permit the linking of fragile X families we shall be able to identify common predisposing factors of fragile X more accurately. Second, by testing the whole population with intellectual disability in one State of manageable size we shall obtain an unbiased estimate of the prevalence of fragile X.Read moreRead less
Spinosyns As Endectocides For Blocking Transmission Of Malaria And Other Mosquito-borne Diseases
Funder
National Health and Medical Research Council
Funding Amount
$758,299.00
Summary
Malaria is a disease caused by a parasite. It is transmitted by mosquitoes and kills 400,000 people annually. To prevent malaria we must stop transmission. We have discovered a natural substance that, if ingested, makes an animal's blood lethal to at least one type of mosquito. It also kills the parasite. We aim to determine if it kills other key mosquito types and how it kills the parasite. We expect this study will lead to a pill that stops transmission of malaria and other tropical diseases.
Plantwide Control of Modern Chemical Processes from a Network Perspective. Complex plants increasingly appear in modern Australian process industries, particularly in mineral processing, petrochemical and renewable energies sectors. These plants represent vast capital costs and manufacture products at a very large scale. Improvement in control and operation of these processes can potentially provide significant economic benefits. The expected outcome of this research is an effective approach to ....Plantwide Control of Modern Chemical Processes from a Network Perspective. Complex plants increasingly appear in modern Australian process industries, particularly in mineral processing, petrochemical and renewable energies sectors. These plants represent vast capital costs and manufacture products at a very large scale. Improvement in control and operation of these processes can potentially provide significant economic benefits. The expected outcome of this research is an effective approach to improve operational safety, efficiency, product quality and manufacturing flexibility, helping to build a more efficient and environmental conscious Australian chemical industry. This project will also enhance Australia's scientific reputation in the frontier research area of advanced process control and management.Read moreRead less