Discovery Early Career Researcher Award - Grant ID: DE130101673
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Access to biomimetic carbohydrate receptors using dynamic combinatorial chemistry. This project aims to utilise novel synthetic technology for the development of cyclic peptide libraries as novel drug leads for the treatment of Dengue virus, HIV and cancer.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100191
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
An advanced mass spectrometer for applications in phospho-proteomics, glycomics and top-down sequencing of proteins. This cutting-edge mass spectrometry facility will benefit the Hunter Valley research community comprising 100 researchers in this field. It will enable the researchers to enhance their research productivity in areas of national importance, including better understanding the etiology of disease states, reproductive health and the regulation of plant growth.
Peptide-based Star Polymers for Improved Biointeraction and Targeted Anticancer Therapies. The aim of this project is to develop peptide-based star polymer nanocarriers for targeted drug delivery to cancer stem cells which integrate aptamer targeting technology and biointeraction studies with blood plasma fluid. The significance of this research is it pioneers the development of a drug delivery system that minimises plasma opsonization through understanding polymer-plasma interactions, which in ....Peptide-based Star Polymers for Improved Biointeraction and Targeted Anticancer Therapies. The aim of this project is to develop peptide-based star polymer nanocarriers for targeted drug delivery to cancer stem cells which integrate aptamer targeting technology and biointeraction studies with blood plasma fluid. The significance of this research is it pioneers the development of a drug delivery system that minimises plasma opsonization through understanding polymer-plasma interactions, which in turn increases tumour specificity and cell internalisation through incorporation of targeting aptamers and triggered drug release. This project will use rational design, advanced macromolecular engineering and an interdisciplinary collaboration to generate next-generation polymer therapeutics for drug delivery.Read moreRead less