Discovery Early Career Researcher Award - Grant ID: DE210101479
Funder
Australian Research Council
Funding Amount
$450,948.00
Summary
The investigation of an unconventional Human Leukocyte Antigen molecule. This project aims to characterise a unique and understudied surface molecule (HLA-E). The immune system is activated and regulated by a complex set of molecules including HLA molecules present on the cell surface that inform the immune system of infection. Therefore, this project expects to generate new knowledge in the areas of cellular biology and immunology by utilising a cutting-edge and multi-disciplinary approach. Exp ....The investigation of an unconventional Human Leukocyte Antigen molecule. This project aims to characterise a unique and understudied surface molecule (HLA-E). The immune system is activated and regulated by a complex set of molecules including HLA molecules present on the cell surface that inform the immune system of infection. Therefore, this project expects to generate new knowledge in the areas of cellular biology and immunology by utilising a cutting-edge and multi-disciplinary approach. Expected outcomes of this project include the generation of new knowledge of this unconventional molecule and its interaction with immune cells. This should provide significant impacts by defining the non-conventional role of HLA-E within the immune system, which may advise future research into vaccines or therapeutics. Read moreRead less
Novel tools and nanotechnology to navigate intracellular trafficking. This project aims to investigate how material accesses different compartments inside cells, also known as trafficking. Using immunology, cell biology and nanotechnology, the project will manipulate intracellular trafficking to achieve specific cellular functions. Outcomes will also form the basis of intellectual property development for new products by Australian biotechnology companies. These products will improve veterinary ....Novel tools and nanotechnology to navigate intracellular trafficking. This project aims to investigate how material accesses different compartments inside cells, also known as trafficking. Using immunology, cell biology and nanotechnology, the project will manipulate intracellular trafficking to achieve specific cellular functions. Outcomes will also form the basis of intellectual property development for new products by Australian biotechnology companies. These products will improve veterinary and human health services, leading to increased productivity.Read moreRead less