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Discovery Early Career Researcher Award - Grant ID: DE160100900
Funder
Australian Research Council
Funding Amount
$366,000.00
Summary
Smart aptamer-guided nanoexosome as a novel biotechnology platform. This project aims to develop guided novel nanomaterials as a new biotechnological platform for in vivo targeted delivery of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) for gene editing. By systematically engineering the surface properties of natural nanovesicles known as exosomes, a novel nanotechnology platform should be established. The guided nano biotechnological platform should not only enable targete ....Smart aptamer-guided nanoexosome as a novel biotechnology platform. This project aims to develop guided novel nanomaterials as a new biotechnological platform for in vivo targeted delivery of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) for gene editing. By systematically engineering the surface properties of natural nanovesicles known as exosomes, a novel nanotechnology platform should be established. The guided nano biotechnological platform should not only enable targeted in vivo precision gene editing via CRISPR but also specific delivery of gene editing machinery across the blood brain barrier for better exploration of fundamental biology of the brain.Read moreRead less
Roles of the kynurenine pathway in physiological and pathological brain function. This project will aim to study the metabolism of the essential amino acid tryptophan in the brain and its involvement in diseases including multiple sclerosis and brain tumours.
Unraveling the role of N-acetyl-aspartate in normal brain function and disease. The purpose of this project is to define the role of the predominating brain chemical N-acetyl-aspartate for normal nerve cell function and as toxic agent causing neurological illness and severe mental health problems. Findings of this research will enhance the design of novel therapies involving pharmacological and genetic treatment.
Defining the cellular impacts of protein aggregation in neurodegenerative disease with an aggreomics platform. The brain disease Huntington’s is caused by abnormally shaped proteins that assemble into toxic clusters. This project will design new bioprobes to track how these clusters form and cause damage to cells. This strategy will also provide new opportunities for discovering novel therapeutic targets.