Identifying genes that influence clinical course and susceptibility in multiple sclerosis. This project aims to identify the genetic basis of multiple sclerosis (MS), the most common neurologic disease in young Australian adults. MS urgently needs research to identify predisposition, aid early diagnosis and provide bona fide molecular targets for new therapies. This will benefit people with MS and those susceptible to it. Crucial new knowledge identified will benefit other major areas of MS rese ....Identifying genes that influence clinical course and susceptibility in multiple sclerosis. This project aims to identify the genetic basis of multiple sclerosis (MS), the most common neurologic disease in young Australian adults. MS urgently needs research to identify predisposition, aid early diagnosis and provide bona fide molecular targets for new therapies. This will benefit people with MS and those susceptible to it. Crucial new knowledge identified will benefit other major areas of MS research including epidemiology, immunology and neurobiology. Collaboration of 8 major Australian institutions is also important for this project and future studies. The team will have access to a new national MS GeneBank (platform) with samples from 2240 patients that should generate findings important to world-wide MS genetic knowledge.Read moreRead less
New tools to activate and silence neural circuits. Many neurological disorders occur as a result of neuron cell death that is initiated by excessive levels of excitatory activity in central nervous system neurons. This project will develop and validate a new treatment for these disorders that involves silencing excessive neuronal activity using a safe, commonly prescribed drug.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775768
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
High-throughput automated cell culture facility. This facility, the first of its kind in Australia, is a state-of-the art, robotic technology for large scale cell culture for high throughput production of cells for stem cell biology, drug discovery, and cancer research. It brings together research teams to apply frontier technologies in stem cell biology, genome biology and drug development to better understand and find treatments for diseases, especially brain disorders and diseases. It will be ....High-throughput automated cell culture facility. This facility, the first of its kind in Australia, is a state-of-the art, robotic technology for large scale cell culture for high throughput production of cells for stem cell biology, drug discovery, and cancer research. It brings together research teams to apply frontier technologies in stem cell biology, genome biology and drug development to better understand and find treatments for diseases, especially brain disorders and diseases. It will be located at Griffith University complementing the most advanced suite of high throughput instruments currently available internationally. It will be shared by Australia's leaders in adult stem cell biology, wound repair and natural products drug discovery at Queensland's three leading Universities.Read moreRead less
Control of language production and its neural substrates. The ability of humans to say the right word at the right time is a critical, complex and poorly understood function. This research will determine the brain circuits responsible for language production and how this process is affected in Parkinson's disease.
Effect of infant hand observation training on the early development of hand reaching and grasping in healthy infants and those with early brain damage. The best way to learn a new motor skill is to look at people who can already do it. But is this also true for infants? And, can we help infants with motor problems by teaching them how to do it? This project aims to answer these questions by studying training based on the observation of parent's actions by infants with and without brain damage.