The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Targeting particulate carriers to epithelial M cells. This project aims to develop and validate an advanced in vitro model of the human intestinal epithelium. The intestine-on-chip model should enable mechanistic studies of the uptake of nano- and micron-size particles by intestinal cells and deliver new insights into the way particulate carriers can be specifically targeted and transported across the intestinal epithelium. Project knowledge and technology are anticipated to generate new commerc ....Targeting particulate carriers to epithelial M cells. This project aims to develop and validate an advanced in vitro model of the human intestinal epithelium. The intestine-on-chip model should enable mechanistic studies of the uptake of nano- and micron-size particles by intestinal cells and deliver new insights into the way particulate carriers can be specifically targeted and transported across the intestinal epithelium. Project knowledge and technology are anticipated to generate new commercialisation opportunities in the oral delivery industry and ultimately, should drive the development of efficient oral formulations for biologics. The model should also reduce the need for animal studies.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120103084
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Targeting bacterial superbugs: novel approaches for optimisation of antibiotic combinations and resistance prevention. This project will elucidate the mechanistic basis to optimally combine available beta-lactam antibiotics to prevent resistance of gram-negative 'superbugs'. The interdisciplinary project will substantially contribute to solving the global crisis due to multidrug-resistant bacteria and inform the design of effective new antibiotics.
Targeting an impending global disaster: the mismatch between increasingly drug-resistant superbugs and development of new antibiotics. This project will develop much-needed novel antibiotics for treating infections caused by bacteria that are resistant to all current antibiotics. It will make a significant contribution to the global medical challenge of a shortage of new antibiotics.
The role of hyaluronan in antigen and immune cell trafficking. This project aims to examine how hyaluronidase, an enzyme that breaks down hyaluronan (a structural component of the skin), affects antigen and cell trafficking to lymph nodes. The project expects to generate new knowledge on the role of hyaluronan in antigen presentation and immunity and to build an interdisciplinary collaboration across immunology, lymphatic transport and material science. The expected outcomes of the project are t ....The role of hyaluronan in antigen and immune cell trafficking. This project aims to examine how hyaluronidase, an enzyme that breaks down hyaluronan (a structural component of the skin), affects antigen and cell trafficking to lymph nodes. The project expects to generate new knowledge on the role of hyaluronan in antigen presentation and immunity and to build an interdisciplinary collaboration across immunology, lymphatic transport and material science. The expected outcomes of the project are the development of new knowledge and new models to explore immunity, interdisciplinary training for researchers and post graduate students and a roadmap of the importance of hyaluronan in antigen trafficking. Read moreRead less
Novel insecticidal neurotoxins from Australian spider venoms. Insecticidal toxins have considerable potential as novel biopesticides to combat the evolution of widespread insect resistance to classical chemical pesticides. This problem is increasing both in Australia and internationally. This study aims to isolate and pharmacologically characterise potent and selective insecticidal neurotoxins from Australian arachnids. Our laboratories will isolate neurotoxins from spider venoms, determine thei ....Novel insecticidal neurotoxins from Australian spider venoms. Insecticidal toxins have considerable potential as novel biopesticides to combat the evolution of widespread insect resistance to classical chemical pesticides. This problem is increasing both in Australia and internationally. This study aims to isolate and pharmacologically characterise potent and selective insecticidal neurotoxins from Australian arachnids. Our laboratories will isolate neurotoxins from spider venoms, determine their selectivity in insect and mammal bioassays, determine their primary and tertiary structures, and investigate their structure-function relationships by electrophysiological techniques. These functional and structural data will allow the future engineering, by molecular or synthetic procedures, of viral biopesticide analogues with increased potency, stability and selectivity.Read moreRead less
Relaxin: molecular mechanisms of cardioprotection. Heart failure represents a major health and economic burden worldwide, for which there is currently no successful cure. This project will provide valuable information on the basic mechanisms associated with the vascular actions of the hormone relaxin that has shown great promise in clinical trials as a novel treatment for heart failure.
Supersaturated and non-digestible dispersions in the intestinal lumen: new mechanisms to reduce variability in the rate and extent of drug absorption. This project will design new polymers to be included in capsule formulations to prevent the precipitation of drugs in the intestine after their oral administration. This new technology will reduce the incidence of side-effects and ensure that patients absorb the correct dose of drug regardless of whether they take the drug before or after food.
Pharmacological modification of retinal and visual function and relation to control of refractive error. Myopia (short-sightedness) affects many hundreds of millions of people worldwide and can lead to blindness. Drug treatments that prevent myopia are being developed, however there is no efficient way of determining who is at risk of myopia or who will benefit from these treatments. This fundamental research project will determine the retinal and visual effects of pharmacologic agents that inhi ....Pharmacological modification of retinal and visual function and relation to control of refractive error. Myopia (short-sightedness) affects many hundreds of millions of people worldwide and can lead to blindness. Drug treatments that prevent myopia are being developed, however there is no efficient way of determining who is at risk of myopia or who will benefit from these treatments. This fundamental research project will determine the retinal and visual effects of pharmacologic agents that inhibit myopia, with the aim of determining an ocular measure that is related to myopia, which is altered by drugs that are known to slow myopia progression, and that could be used as an indication of an agent's likely effectiveness.Read moreRead less
Therapeutic approaches to treat human immunodeficiency virus infection: development of HIV-1 integrase inhibitors. This project aims to assist the development of new anti-HIV drugs, which would benefit the 15000 Australians and over 40 million people worldwide who are currently infected with this terrible disease. The project will utilise state of the art technologies - including the Australian Synchrotron when it is commissioned in 2007 - to identify and synthesise compounds as new leads for th ....Therapeutic approaches to treat human immunodeficiency virus infection: development of HIV-1 integrase inhibitors. This project aims to assist the development of new anti-HIV drugs, which would benefit the 15000 Australians and over 40 million people worldwide who are currently infected with this terrible disease. The project will utilise state of the art technologies - including the Australian Synchrotron when it is commissioned in 2007 - to identify and synthesise compounds as new leads for the treatment of HIV.Read moreRead less
Targeting virulence of Pseudomonas aeruginosa by inhibiting oxidative protein folding. Our research will lead to the development of compounds with a novel anti-virulence/antibacterial mode of action for further drug development.