I am working at the interface of quantitative, statistical, population and human genetics and bioinformatics, aiming to understand and unravel genetic variation in disease susceptibility and endophenotypes in human populations.
Imaging Genetics In Schizophrenia And Bipolar Disorder: Adjudicating Neurocognitive Endophenotypes
Funder
National Health and Medical Research Council
Funding Amount
$569,873.00
Summary
Schizophrenia and bipolar disorder share some common genes and cognitive deficits, yet manifest differently in terms of symptom expression, illness course, and functional impact. This research tests the assertion that genes implicated as common to these conditions may code for impairments in prefrontal cognitive and sub-cortical emotion processing. We also examine whether between-diagnosis distinctions in these brain responses may be mediated by hypothalamic-pituitary-adrenal axis functioning.
Development And Evaluation Of Statistical Methods And Software For Analysis Of Complex Genetic Disease Data
Funder
National Health and Medical Research Council
Funding Amount
$1,250,371.00
Summary
What are the major factors underpinning complex genetic diseases like diabetes, bipolar disorder or cancer? To answer this question new tools are needed, including software for mining the human genome with interactions between the genome and environment being incorporated. This is our focus. It will form the basis of a superior understanding of the overall process leading to disease and hence better predictions with important ramifications for new treatments and health care planning.
Mapping EQTL To Dissect The Genetic Basis Of Complex Trait Variation
Funder
National Health and Medical Research Council
Funding Amount
$719,525.00
Summary
People vary in traits such as height and blood pressure and in their susceptibility to common disease. Part of these differences between individuals is because of their genetic make-up. This research is about understanding which of the genes are involved in common variation and how they work. In particular, the researchers investigate if variation in DNA sequence causes genes to be expressed more or less and how gene expression affects risk of disease.
Determining The Impact Of Inherited Epigenetic Information On Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$511,691.00
Summary
Recent observations show that the environment in which you live can alter disease susceptibility in your children, without altering the sequence of your genes. This is due to epigenetic mechanisms which control the way the DNA is interpreted. In this study we will study the potential for epigenetic mechanisms to affect sperm production and impact characteristics and disease in the next generation.
Evaluation of the optic nerve head (optic disc) is important in the diagnosis of various eye diseases, including glaucoma. The influence of genetics on the shape of the optic disc is not well understood because shape is difficult to measure. Using a novel method of shape analysis, this study will examine optic disc shape in populations of Australian twins and individuals with optic nerve disease. It will contribute to the genetic understanding of the optic nerve head and related disorders.
Molecular Basis Of Transgenerational Epigenetic Inheritance In Mammals
Funder
National Health and Medical Research Council
Funding Amount
$477,965.00
Summary
While it has long been recognised that it is not just DNA, but chromosomes, that are passed from the gametes to the embryo, the non-DNA component was thought to carry no information with respect to the offspring's ultimate phenotype. However, there is now evidence that the non-DNA component, the epigenetic component, can play a role in the inheritance of phenotype in mammals. This study will attempt to determine the molecular nature of this phenomenon.
Defining The Epigenetic Origins Of Maternally Inherited Disease.
Funder
National Health and Medical Research Council
Funding Amount
$731,162.00
Summary
Epigenetic (non genetic) changes to the DNA in sperm and eggs can alter outcomes in children. Despite the potential for drugs and diet to mediate some of these inherited effects, the processes involved are very poorly understood. By determining the mechanisms that regulate epigenetic inheritance, this project will improve our understanding of how epigenetic mechanisms acting in the parent, can mediate inherited disease and life-long health outcomes in our children.
Determining The Impacts Of Epigenetic Modifying Drugs On Germline Programming And Offspring Health
Funder
National Health and Medical Research Council
Funding Amount
$863,918.00
Summary
New drugs have been developed that inhibit specific enzymes that regulate epigenetic pathways in cells. These pathways significantly affect growth and development in offspring and may represent a risk to future children of patients taking the drug. This project will determine these risks and provide data for developing clinical guidelines for safe use of the drugs.