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The Regulation Of B Cell Differentiation And Survival In Response To Antigen Challenge
Funder
National Health and Medical Research Council
Funding Amount
$763,409.00
Summary
Antibodies are crucial to health and well being but can cause disease if their production is not controlled appropriately. This research program examines the basis of antibody production in normal situations and in situations where it is causing illness, in diseases like system lupus erythematosus (SLE) and in cancers of antibody producing cells called multiple myeloma (MM). The aim is to enable control of the process to achieve better health outcomes and better management of disease.
Fellowship Application, Ed Stanley: Pluripotent Stem Cells & Medical Research
Funder
National Health and Medical Research Council
Funding Amount
$638,517.00
Summary
Human Pluripotent Stem Cells are immortal cells that have the ability to turn into any of the cell types found in the body. This means that it is now possible to generate a variety of human cell types in the laboratory, to study how they work, and to find out what goes wrong in different diseases. In this context, the overall aim of my research is to develop pluripotent stem cells for the study of human disease and generate tools that will enable others to use these cells in their own research.
Understanding the immune response is proving extremely complex and promising results for disease treatments from animal models are often difficult to translate to new clinical therapies. My research is unearthing weaknesses in our current knowledge of the immune system and seeking to replace them with a foundation that can exploit new developments in computer modelling and systems biology. In this way I aim to rationally manipulate the immune response.
Understanding the immune response is proving extremely complex and promising results for disease treatments from animal models are often difficult to translate to new clinical therapies. My research is unearthing weaknesses in our current knowledge of the immune system and seeking to replace them with a foundation that can exploit new developments in computer modelling and systems biology. In this way I aim to rationally manipulate the immune response.
I am a cell biologist/geneticist focusing on understanding tumourigenesis. Cancer is a multigenic and complicated disease, involving interactions between the tumour and normal tissue. I use the genetically tractable model organism, the vinegar fly, Drosophila, to model cancer in situ and identify novel genes that drive cancer. My 5 year career plan is to use the Drosophila system to model cooperative tumourigenesis in epithelial and brain tissues and translate this to human cancer.