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Defining The Role Of Genomic Structural Variations In Hypertension And Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$379,597.00
Summary
High blood pressure is caused by a variety of inherited alterations (mutations) in the letters our DNA and lifestyle. The aim of this project is to investigate gains and losses of large portions of DNA sequences consisting of between ten thousand and over a million letters (known as Copy Number Variation). We will compare the DNA of subjects who have high blood pressure with subjects who are normal. This discovery of changes may help diagnosis, prevention and treatment.
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
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.
Using Methods In Genetic Epidemiology To Elucidate The Relationship Between Viral Infection And Risk Of Autoimmune Disease
Funder
National Health and Medical Research Council
Funding Amount
$622,446.00
Summary
Autoimmune diseases occur when the body's natural defense mechanisms attack healthy tissues by mistake. It has long been thought that viral infections might play a role in triggering autoimmune disease. Our study aims to find genes that influence the body's response to viral infection and subsequently whether the same genes are involved in autoimmune disease pathology. If the same genes are important in both situations then this will provide evidence that viruses trigger autoimmune disease.
Evaluating The Genetic Contribution To Rheumatic Heart Disease Pathogenesis In Australian Aboriginal And Torres Strait Islander Communities
Funder
National Health and Medical Research Council
Funding Amount
$1,782,074.00
Summary
Rheumatic heart disease is highly prevalent in Aboriginal people in Australia and leads to early cardiac disease. Despite decades of research, the underlying genetic mechanisms for why it occurs are not well understood. We are conducting a genetic study to better understand why some people are susceptible to RHD and others are not. The study will involve substantial Aboriginal leadership and consultation and will be a model for the conduct of genetic studies in Aboriginal populations.
Genomic Risk Of Coeliac Disease In First-degree Relatives
Funder
National Health and Medical Research Council
Funding Amount
$631,757.00
Summary
Coeliac disease is a common and strongly genetically determined inflammatory disorder triggered by gluten exposure. Because of its substantial genetic component, familial risk is substantial yet currently the actual risk is poorly quantified. We aim to use genomic profiling to construct and validate a novel risk score which can accurately determine which family members of coeliac disease cases are most at risk themselves.
Identifying Novel Susceptibility Loci For Osteoporosis Through Whole Genome Sequencing
Funder
National Health and Medical Research Council
Funding Amount
$623,969.00
Summary
Our highly successful genome-wide studies of bone mineral density (a risk factor for osteoporosis) have highlighted 60 loci relevant to the disease. However, a substantial amount of genetic variance remains unexplained. This project will focus on less common variants that have larger effect sizes and are relevant to osteoporosis, but are not well studied by approaches such as high-density SNP arrays and genome-wide association studies.
How The Environment And Epigenetics Affect The Brain Disease Gene, MAPT.
Funder
National Health and Medical Research Council
Summary
Genetic variants in the microtubule associated protein Tau (MAPT) gene are major risk factors for Alzheimer’s disease and Parkinson’s disease. Environmental or lifestyle factors, such as diet and smoking, have crucial roles in changing the risk of developing these diseases. These environmental factors may exert their influence via a mechanism known as "epigenetics". This project aims to determine whether the MAPT gene is susceptible to epigenetic changes by environmental factors, and whether thi ....Genetic variants in the microtubule associated protein Tau (MAPT) gene are major risk factors for Alzheimer’s disease and Parkinson’s disease. Environmental or lifestyle factors, such as diet and smoking, have crucial roles in changing the risk of developing these diseases. These environmental factors may exert their influence via a mechanism known as "epigenetics". This project aims to determine whether the MAPT gene is susceptible to epigenetic changes by environmental factors, and whether this process will have an impact on these diseases.Read moreRead less
The Calcium Channel TRPV4 In Skeletal Development And Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$683,069.00
Summary
We have discovered that mutations in a calcium channel gene, TRPV4, cause an inherited osteoarthritis in the hands and feet. This work suggests that TRPV4 may be important in osteoarthritis and suggests the exciting possibility that modulating TRPV4 activity may provide a new therapeutic approach for arthritis. We will study how and why the mutations disrupt channel function and study mouse models to see if they are more or less susceptible to arthritis.
Approaches To Therapy For The Skeletal Muscle Actin Diseases
Funder
National Health and Medical Research Council
Funding Amount
$912,078.00
Summary
We have shown that errors in a crucial muscle protein called actin cause muscle diseases that affect newborn children. These diseases are mainly very severe, causing death within the first year of life. Currently there is no cure. This project will investigate possible therapies for these diseases, such as viral delivery of a normal version of actin and finding a drug to overcome the weakness. Successful outcomes will crucially bring treatment closer for the patients.