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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.
Discovery Early Career Researcher Award - Grant ID: DE190100985
Funder
Australian Research Council
Funding Amount
$409,574.00
Summary
Targeted genome editing using engineered CRISPR-Cas endonucleases. This project aims to study the generation of targeted and cell-specific endonucleases. CRISPR-Cas endonucleases have revolutionised the field of genome engineering due to programming simplicity based on a short guide RNA and high cleavage efficiency. This project will combine the use of two technologies in genome engineering and antibody therapeutics to generate new antibody-targeted endonucleases that modify cellular genomes wit ....Targeted genome editing using engineered CRISPR-Cas endonucleases. This project aims to study the generation of targeted and cell-specific endonucleases. CRISPR-Cas endonucleases have revolutionised the field of genome engineering due to programming simplicity based on a short guide RNA and high cleavage efficiency. This project will combine the use of two technologies in genome engineering and antibody therapeutics to generate new antibody-targeted endonucleases that modify cellular genomes with high efficacy and specificity. This project will provide new and intriguing insights into cellar function, with broad applications in basic research and biotechnology.Read moreRead less
The design of targetable epigenetic modifiers. The project aims to engineer enzymes as valuable tools for understanding gene expression mechanisms and potentially a technology for altering gene expression in plants, animals or humans in a targetable manner. The genetic information encoded in the DNA of all complex organisms has been shown to be augmented by decorations on both DNA and the histone proteins that package DNA. This so-called epigenetic information is important but not well understoo ....The design of targetable epigenetic modifiers. The project aims to engineer enzymes as valuable tools for understanding gene expression mechanisms and potentially a technology for altering gene expression in plants, animals or humans in a targetable manner. The genetic information encoded in the DNA of all complex organisms has been shown to be augmented by decorations on both DNA and the histone proteins that package DNA. This so-called epigenetic information is important but not well understood. The project plans to design highly specific and targetable enzymes that can interrogate and manipulate epigenetic information in living cells. Understanding the regulation of gene expression and controlling the expression of chosen genes may form a foundation for applications in agriculture, biology and medicine.Read moreRead less
A New Platform for Developing a Compound Against Herpes Simplex Virus. This project aims to further explore the research team’s recent fundamental discovery of a protein found naturally in an Australian abalone that inhibits viral entry by blocking three key viral glycoproteins. We would aim to utilise this knowledge towards development of a new class of therapeutics against Herpes simplex viruses (HSV) and their consequent infections. The new therapeutics could overcome the low bioavailability ....A New Platform for Developing a Compound Against Herpes Simplex Virus. This project aims to further explore the research team’s recent fundamental discovery of a protein found naturally in an Australian abalone that inhibits viral entry by blocking three key viral glycoproteins. We would aim to utilise this knowledge towards development of a new class of therapeutics against Herpes simplex viruses (HSV) and their consequent infections. The new therapeutics could overcome the low bioavailability of current drugs and thus significantly shorten the recurrence period. Such new drugs may have broad applicability.Read moreRead less
The Chemistry and Biochemistry of Chromium: Cancer and Nutrition. Of all of the human carcinogens, chromium(VI) has the highest level of occupational exposure, and is of increasing concern as an environmental carcinogen, as highlighted by the film Erin Brockovitch. Similarly, chromium(III) nutritional supplement consumption by humans and animals is rising rapidly, despite mounting concerns about their cancer risks. However, the complexity of Cr biochemistry is such that it is still poorly unde ....The Chemistry and Biochemistry of Chromium: Cancer and Nutrition. Of all of the human carcinogens, chromium(VI) has the highest level of occupational exposure, and is of increasing concern as an environmental carcinogen, as highlighted by the film Erin Brockovitch. Similarly, chromium(III) nutritional supplement consumption by humans and animals is rising rapidly, despite mounting concerns about their cancer risks. However, the complexity of Cr biochemistry is such that it is still poorly understood. This project aims at providing new insights into Cr biochemistry that are of relevance in evaluating risk factors for occupational and environmental exposure and for producing safer Cr dietary supplements.Read moreRead less
Rubisco for all climates: unlocking the enzyme's structure-function relations for more efficient photosynthesis. This projects biotechnological research will identify structural features in the carbon dioxide (CO2)-capturing enzyme from plants that improve its performance, particularly at warmer temperatures. This knowledge is vital for predicting the influence of climate change on crop productivity and paving the way for supercharging photosynthesis to boost crop performance.
High-throughput microfluidic approach to mapping hierarchies of interactions in the gene regulation machinery. The exploration of protein-protein interactions networks is becoming an extremely active area of research in life sciences. The current project will develop new approaches to accelerate the discovery of novel interacting proteins participating in gene regulation, in order to understand how cells differentiate into different tissues and organs.
Understanding the mechanisms that regulate the human signal recognition particle cycle. The precise cellular localisation of proteins is a fundamental process in cell biology required for survival. The aim of this project is to understand the mechanisms by which the human signal recognition particle delivers newly translated proteins to their cognate cellular location.
Targeting the delivery of cytotoxic agents to tumour cells using novel minicells as drug delivery vehicles and engineered, bispecific antibodies. Cancer persists as a major cause of morbidity and mortality globally. A major problem is the non-specific action of drugs used for treatment. The minicell is a drug delivery vehicle, capable of packaging a variety of drugs. The project will develop tumour-specific antibodies that will target minicells to tumours, improving cancer survival rates.