Human Genetic Susceptibility To Pulmonary Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$760,432.00
Summary
Tuberculosis (TB) infects about a third of the world population, causing significant disease in 10% of infected individuals. We propose to undertake a genome-wide study to investigate human susceptibility to this devastating disease. Identifying novel gene associations from this study may explain why some people are more vulnerable to TB. Understanding these processes may lead to more effective treatments which is essential for the long term control of disease not only in China, but worldwide
Defining Early Epigenetic Causes Of Cardiac Hypertrophy And Failure
Funder
National Health and Medical Research Council
Funding Amount
$620,917.00
Summary
A big heart is bad news, no matter what the cause. Sometimes this happens when the heart is under stress. At other times no cause can be found. These studies will identify the molecular switches and signals that can transform a normal heart into a big heart. Some of these are inherited, some activated by stress. Armed with knowledge of the molecular mechanisms we can identify those at risk and design new targets for novel treatment strategies.
Neuromuscular Disorders: Gene Discovery And Disease Mechanism
Funder
National Health and Medical Research Council
Funding Amount
$880,569.00
Summary
Inherited muscle disorders lead to lifelong disability and early death. Less that 50% of patients get an accurate diagnosis and there are currently no effective therapies. In this project, two leading Australian laboratories will use state-of-the-art methods to identify novel disease genes and how they cause muscle weakness. This research will have immediate outcomes to diagnosis, management and prevention and for the development of new therapeutic agents.
CAGE: Consortium For The Architecture Of Gene Expression
Funder
National Health and Medical Research Council
Funding Amount
$501,080.00
Summary
This research project is about understanding why some people are most susceptible to disease than others, by identifying genetic factors that influence the expression of genes that are important in disease. We will work with leaders in the field in Europe and the USA in an international research consortium to find genetic variants with an effect on gene expression and to link those genetic factors to disease. The project will provide new understanding about the biological basis of common disease ....This research project is about understanding why some people are most susceptible to disease than others, by identifying genetic factors that influence the expression of genes that are important in disease. We will work with leaders in the field in Europe and the USA in an international research consortium to find genetic variants with an effect on gene expression and to link those genetic factors to disease. The project will provide new understanding about the biological basis of common diseases.Read moreRead less
Exploiting SNP Data In Epidemiology And Genetics Through Multivariate Analysis Of Complex Traits
Funder
National Health and Medical Research Council
Funding Amount
$476,981.00
Summary
There is overlap in risk factors across multiple diseases, and some of that overlap is due to genetic factors. The availability of genome-wide DNA data on tens of thousands of patients for multiple diseases and healthy controls allows new questions to be asked and answered. For example, what is the overlap due to genes in disease risk for multiple sclerosis and rheumatoid arthritis? This project will develop and statistical genetic methodology to answer such questions and apply those methods to ....There is overlap in risk factors across multiple diseases, and some of that overlap is due to genetic factors. The availability of genome-wide DNA data on tens of thousands of patients for multiple diseases and healthy controls allows new questions to be asked and answered. For example, what is the overlap due to genes in disease risk for multiple sclerosis and rheumatoid arthritis? This project will develop and statistical genetic methodology to answer such questions and apply those methods to a range of important diseases.Read moreRead less
This study is aimed at identifying genetic variants that influence susceptibility to migraine. We plan to use DNA samples already collected from families with multiple migraine affected individuals and sequence a region on the X chromosome that has previously been identified as harbouring a migraine susceptibility gene. This project will identify gene(s) that contain variants contributing to migraine.
Development And Application Of A Mendelian Randomization Framework Aimed At Dissecting The Biological Basis Of Ankylosing Spondylitis And Other Complex Diseases
Funder
National Health and Medical Research Council
Funding Amount
$279,666.00
Summary
Our aim is to identify genes and biological molecules that cause a type of autoimmune arthritis called ankylosing spondylitis. Our approach involves finding combinations of genes that are related to biological molecules of interest and then testing to see whether the gene combination is also related to risk of disease. We hope that our strategy will lead to new drug treatments targeting the condition.
Uncovering The Impact Of Tandem Repeat Variation On Both Common And Syndromic Forms Of Paediatric Obesity
Funder
National Health and Medical Research Council
Funding Amount
$619,622.00
Summary
We are currently in the middle of a world-wide obesity epidemic. While much of the increase in obesity prevalence is due to diet and a sedentary lifestyle, a significant proportion of risk of childhood obesity is thought to have a genetic basis. A proportion of our DNA consists of repeated DNA units, like a genetic stutter, and the number of repeats is variable in the population. We will measure the repeat number at repeats across the genome to search for changes associated with obesity.
Exome Sequencing By NGS To Identify Rare Variants Affecting Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$570,425.00
Summary
Rates of type 2 diabetes are rising dramatically, and current efforts are failing to stem its progression. More information about why the disease develops is urgently needed. We apply the latest technological innovations in DNA analysis to accelerate the discovery of the mechanism behind the development of type 2 diabetes. This knowledge will lead to new ways to control diabetes through development of novel therapies.
Novel Bioinformatics Methods For Prioritizing Disease-causing INDELs
Funder
National Health and Medical Research Council
Funding Amount
$351,664.00
Summary
This project will build a bioinformatics diagnostic tool for the detection of small insertions and deletions (INDELs) in the human genome, which are the second most abundant class of human genetic variations. INDELs are implicated in many human diseases. Thus, the assessment of INDELs is critical for understanding disease etiology, disease susceptibility, and for interpreting personal genome sequencing data. The goal is to improve disease diagnosis and prevention.