Variation And Inheritance Of Retrotransposon Epigenotype In The Mouse
Funder
National Health and Medical Research Council
Funding Amount
$355,500.00
Summary
It is often assumed that traits in humans and other mammals are a product primarily of information encoded in the sequence of DNA, with some contribution from the environment. However, there is clear evidence that traits may vary widely between individuals with precisely the same DNA, such as identical twins, even in circumstances where environmental differences are negligible. This variation can be produced by epigenetic factors chemical changes or protein binding to DNA that alter the way gene ....It is often assumed that traits in humans and other mammals are a product primarily of information encoded in the sequence of DNA, with some contribution from the environment. However, there is clear evidence that traits may vary widely between individuals with precisely the same DNA, such as identical twins, even in circumstances where environmental differences are negligible. This variation can be produced by epigenetic factors chemical changes or protein binding to DNA that alter the way genes are used. Epigenetic factors can be passed from one generation to the next like the DNA itself, and this can make it difficult to know if a trait is encoded in the DNA itself or is epigenetic. We have found that some epigenetic traits in mice are caused by retrotransposons, which are parasitic elements that reside in and among genes, and can reproduce themselves, but do not have any known function (nearly half the human genome is made up of retrotransposons). Retrotransposons are generally kept silent by epigenetic factors, but may sometimes become active; when they do they may disturb normal patterns of gene activity and cause changes in traits and even disease. Much variation in humans may thus be due to variation in the epigenetic state (epigenotype) of retrotransposons. We propose to investigate variation and inheritance of epigenotype in mice, focussing on retrotransposons. We will use simple methods to compare epigenotype of a number of retrotransposons in genetically identical mice, and we will ask if any differences we find are heritable. We will also investigate the resetting of epigenotype the point in development when epigenetic factors are cleared and reset. We suspect that this occurs in early development. These studies may reveal a system of variation and inheritance with rules completely different from those found by Mendel, which may have a pervasive influence on traits, including sporadic diseases in humans.Read moreRead less
A Genome Wide Association Study For Endometriosis Susceptibility Genes
Funder
National Health and Medical Research Council
Funding Amount
$946,750.00
Summary
Endometriosis is a common condition that affects up to 10% of women. Symptoms are severe pelvic pain, menstrual problems and infertility with major impacts on women's lives and relationships. Since 1996, 4,000 affected women plus their families have joined our genetic study. Our aim is to conduct a genome wide search to identify genes contributing to endometriosis. This knowledge will ultimately lead to better diagnosis and treatment for the millions of women who suffer the disease.
Many recent gene mapping efforts have focused on population based approaches instead of previously used family based approaches. One of the limiting factors with population based approaches is the cost of the technology - each participant must be evaluated (or genotyped) for hundreds of thousands of genetic markers. The cost can be reduced by using an approach which pools individuals together for genotyping, with statistical models used to deal with the problems that this creates.
QTL Linkage Analysis For Complex Human Traits In Twin Families
Funder
National Health and Medical Research Council
Funding Amount
$1,000,000.00
Summary
This project will focus on finding genes for common human diseases. Now that the human genome has been sequenced, the race is on to find out what the estimated 38,000 human genes do and which ones are associated with which diseases. Scattered throughout the genome are small variations in DNA sequence, some of which increase the odds of disease while others are protective.
Epigenetic Hyperglycemic Cell Memory Causes Vascular Complications In Type 1 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$332,140.00
Summary
This project seeks to identify how epigenetic change in response to hyperglycemia can cause vascular complications of diabetes, and how this contributes to “hyperglycemic memory”; a phenomena where cells may undergo gene modifications which increase risk to further complications later in a patients life. These studies are the first of their kind and will characterize the types of epigenetic change that can cause human disease.
Genome-wide Association Studies Of Biomedical Traits And Endophenotypes For Complex Disease
Funder
National Health and Medical Research Council
Funding Amount
$295,804.00
Summary
The burden of common complex diseases, such as cardiovascular disease is substantial to the health care system. These diseases are caused by genes and environments as well as their interactions. The proposed project will identify genes affecting the susceptibility of individuals to complex diseases. Discovery of such genes will be important for their diagnosis, prevention and treatment and may serve as an important resource for future personalized medicine.
Mechanisms of zinc transport and homeostasis in plants. Zinc deficiency is a widespread factor limiting crop production and affects many soils of southern Australia and around the world. Genetic techniques can be used to identify zinc-efficient crop breeds able to grow well under zinc deficient conditions and able to efficiently deliver zinc to cereal grains to alleviate nutritional zinc-deficiency in humans. This project will identify new genes important in zinc transport and homeostasis in pla ....Mechanisms of zinc transport and homeostasis in plants. Zinc deficiency is a widespread factor limiting crop production and affects many soils of southern Australia and around the world. Genetic techniques can be used to identify zinc-efficient crop breeds able to grow well under zinc deficient conditions and able to efficiently deliver zinc to cereal grains to alleviate nutritional zinc-deficiency in humans. This project will identify new genes important in zinc transport and homeostasis in plants and will ultimately allow their role in zinc efficient crops to be assessed. This will contribute to more rapid and directed strategies in breeding zinc efficient crops.Read moreRead less
Identification And Characterisation Of The Genes And Pathways In Susceptibility To Inflammatory Bowel Disease
Funder
National Health and Medical Research Council
Funding Amount
$575,581.00
Summary
One of the greatest challenges facing contemporary genetics is to understand the genetics of complex diseases such as inflammatory bowel disease, mutiple sclerosis and schizophrenia. This application seeks to unravel the complex interactions between susceptibility genes and environmental triggers that work together to produce the inflammatory bowel diseases (IBD). Current estimates of the prevalence and incidence suggests that there may be 30-40,000 Australians who suffer from these chronic debi ....One of the greatest challenges facing contemporary genetics is to understand the genetics of complex diseases such as inflammatory bowel disease, mutiple sclerosis and schizophrenia. This application seeks to unravel the complex interactions between susceptibility genes and environmental triggers that work together to produce the inflammatory bowel diseases (IBD). Current estimates of the prevalence and incidence suggests that there may be 30-40,000 Australians who suffer from these chronic debiltating set of diseases known separately as Crohn's disease and ulcerative colitis. One susceptibility gene for Crohn's disease has been recently been identified and the project outlined will extend our knowledge not only to the susceptibility genes themselves, but also to the genes that interact with them to produce the disease via a cascade of immune and inflammatory events. This work is part of a large international effort to identify all IBD susceptibility genes and builds on the resources of the Australian IBD Familiy Register- an Australia wide register of families in which multiple members are affected by CD or UC. A traditional gene mapping approach is used in concert with mutiple analyses of different gene expression profiles in disease versus normal bowel tissues as well as in cell lines from patients versus controls. Validation studies include identification of the particular tissues and cell types that are involved in the pathological immune response typical of IBD as well as characterisation of specific patient genotypes and- or phenotypes that may correlate with expression profiles. Results obtained will be used to identify genes underlying IBD susceptibility, the mutations that drive the disease and eventually therapeutic targets for modulation and treatment of disease.Read moreRead less