Detection Of Somatic Mutations In Sporadic Epilepsies
Funder
National Health and Medical Research Council
Funding Amount
$1,256,166.00
Summary
Finding genetic causes of epilepsies is essential for refining treatments and genetic counseling. Genetic mutations may occur after fertilization (somatic mutations). These can be difficult to detect by routine genetic tests. We aim to identify somatic mutations by: very deep sequencing of blood to find low concentrations of mutations, analysing DNA from the cerebrospinal fluid, and analysing DNA obtained from the back of the nose which is closely related to brain tissue.
Expanding Diagnostic Approaches For Lynch Syndrome
Funder
National Health and Medical Research Council
Funding Amount
$1,269,355.00
Summary
Currently, there are ~1,000 families who have attended Family Cancer Clinics across Australia who have the hallmarks of having Lynch syndrome, a hereditary bowel cancer syndrome, but who have no gene defect identified, i.e. their cancer is unexplained. Clinicians are challenged by these “Lynch-like” patients as their family cancer risk is unknown. Our research has identified new gene defects in Lynch-like patients. Our aim is to optimise clinical testing approaches for Lynch-like patients.
The effect of mitochondrial and nuclear-cytoplasmic variation on longevity, metabolism and stress resistance in Drosophila. Much research points to a major role of free radical damage in aging, thus the belief that antioxidants might be beneficial in delaying aging. Free radicals are mostly formed in the subcellular organelles which consume oxygen and produce energy, and this may be the major site of age-related damage. This project seeks to understand the degree to which variation among these ....The effect of mitochondrial and nuclear-cytoplasmic variation on longevity, metabolism and stress resistance in Drosophila. Much research points to a major role of free radical damage in aging, thus the belief that antioxidants might be beneficial in delaying aging. Free radicals are mostly formed in the subcellular organelles which consume oxygen and produce energy, and this may be the major site of age-related damage. This project seeks to understand the degree to which variation among these subcellular organelles affect free radical damage and aging, using the fruitfly Drosophila melanogaster as a model organism.Read moreRead less
The Role Of Myo18b In Myopathies And Sarcomere Assembly
Funder
National Health and Medical Research Council
Funding Amount
$860,776.00
Summary
Muscle force is provided by a specific structure within the muscle cell termed the sarcomere. Sarcomeres are the engine-room of muscle cells, that act as complex cellular machines to controls muscle contraction. Many muscle degenerative disorders are caused by defects within the sarcomeres, but how this occurs is not well understood. This grant examines how one such muscle waiting disease, or myopathy, results from mutations in a gene encoding a component of the sarcomere called Myo18b.
Discovery Early Career Researcher Award - Grant ID: DE230101315
Funder
Australian Research Council
Funding Amount
$461,154.00
Summary
The dynamic interplay between the matrix and cell fate in developing heart. Malformations in the developing heart can lead to catastrophic defects and embryonic loss. The valves play a critical role in blood flow regulation and are made of a stratified matrix that is laid down early in development. This project aims to determine how the cellular fate of the early valve cells establish the layered matrix and in turn how the matrix can influence cell fate by utilising a multi-omics approach to ide ....The dynamic interplay between the matrix and cell fate in developing heart. Malformations in the developing heart can lead to catastrophic defects and embryonic loss. The valves play a critical role in blood flow regulation and are made of a stratified matrix that is laid down early in development. This project aims to determine how the cellular fate of the early valve cells establish the layered matrix and in turn how the matrix can influence cell fate by utilising a multi-omics approach to identify unique cell populations and integrate transcriptional and protein changes during matrix disruption. This project expects to generate fundamental knowledge on how matrix structure can influence cell fate in the valves and will advance Australia's knowledge base and research capabilities in developmental biology.Read moreRead less
Glutathione, a major antioxidant in plants: translocation between tissues and transport within cells. Plants are continually exposed to environmental stress. In agriculture this may include high and low temperature, pathogens, soil toxicity and excess light. The ways in which plants deal with environmental stress influence their productivity. Understanding these mechanisms is an important goal that can contribute to better strategies to manage plant responses to environmental stress in agricultu ....Glutathione, a major antioxidant in plants: translocation between tissues and transport within cells. Plants are continually exposed to environmental stress. In agriculture this may include high and low temperature, pathogens, soil toxicity and excess light. The ways in which plants deal with environmental stress influence their productivity. Understanding these mechanisms is an important goal that can contribute to better strategies to manage plant responses to environmental stress in agricultural species.Read moreRead less
Characterisation of heavy metal transport genes in the plant Arabidopsis: potential roles in metal detoxification and accumulation. Plants have considerable potential for the bioremediation ("phytoremediation") of contaminated soils, including soils polluted with heavy metals. Progress has been made in understanding the physiological and biochemical mechanisms by which plants accumulate and detoxify heavy metals. One important aspect of metal detoxification is the transport of metals across cell ....Characterisation of heavy metal transport genes in the plant Arabidopsis: potential roles in metal detoxification and accumulation. Plants have considerable potential for the bioremediation ("phytoremediation") of contaminated soils, including soils polluted with heavy metals. Progress has been made in understanding the physiological and biochemical mechanisms by which plants accumulate and detoxify heavy metals. One important aspect of metal detoxification is the transport of metals across cell membranes. The recently completed genome project for the model plant Arabidopsis has identified a family of genes encoding heavy metal transport proteins. This project aims to investigate the roles of these genes in metal detoxification. In the longer term this knowledge can be applied to the improvement of phytoremediation processes.Read moreRead less
Mechanisms of zinc transport and homeostasis in the plant, Arabidopsis. Zinc-deficiency is one of the most widespread factors limiting crop production and affects many soils of south-east and south-west Australia. Certain zinc-efficient (ZE) crop cultivars are able to grow well under zinc deficient conditions but the genetic basis for ZE is not well understood. Using a model organism such as Arabidopsis to identify genes in plants that are important in zinc transport and homeostasis will ultimat ....Mechanisms of zinc transport and homeostasis in the plant, Arabidopsis. Zinc-deficiency is one of the most widespread factors limiting crop production and affects many soils of south-east and south-west Australia. Certain zinc-efficient (ZE) crop cultivars are able to grow well under zinc deficient conditions but the genetic basis for ZE is not well understood. Using a model organism such as Arabidopsis to identify genes in plants that are important in zinc transport and homeostasis will ultimately allow us to assess whether the homologous genes in crop species are responsible for ZE. This may contribute to more rapid and directed strategies in breeding ZE crop cultivars.Read moreRead less
Understanding how the heart becomes more efficient. The body demands that the heart function at utmost efficiency. Trabeculae – folds within the heart lumen – maximise blood flow, contribute to chamber development and form the electrical conduction network of the heart. Problems with trabeculae formation cause cardiomyopathy and arrhythmia and yet we do not understand its basic development. The project will investigate the earliest stages of when this tissue develops its identity and examine the ....Understanding how the heart becomes more efficient. The body demands that the heart function at utmost efficiency. Trabeculae – folds within the heart lumen – maximise blood flow, contribute to chamber development and form the electrical conduction network of the heart. Problems with trabeculae formation cause cardiomyopathy and arrhythmia and yet we do not understand its basic development. The project will investigate the earliest stages of when this tissue develops its identity and examine the signalling, genetic, cellular and extracellular cues required to instruct trabeculae to form in the heart. Findings from this research will revise our understanding of when and how trabeculae form and provide key information about how to grow and repair this important tissue.Read moreRead less
How do stem cells get specified during embryonic muscle development? This project aims to investigate the mechanisms by which muscle stem cells first form in the embryo. This project expects to generate new knowledge on the mechanism that patterns cell types in the embryonic myotome. Expected outcomes of this project include uncovering the developmental mechanisms of cell type specification in the myotome with specific reference to the generation of stem cells. This should provide significant be ....How do stem cells get specified during embryonic muscle development? This project aims to investigate the mechanisms by which muscle stem cells first form in the embryo. This project expects to generate new knowledge on the mechanism that patterns cell types in the embryonic myotome. Expected outcomes of this project include uncovering the developmental mechanisms of cell type specification in the myotome with specific reference to the generation of stem cells. This should provide significant benefits as it will inform how long lived tissue resident stem cells can be made in the first instance, knowledge that is critical for making stem cells on demand outside the animal and manipulating stem cells in living tissue.Read moreRead less