The ins and outs of HIV biology. This project aims to delineate the fundamental mechanisms that regulate the production of HIV and the ability of HIV to cause AIDS in infected patients. It will utilise state-of-the-art technologies to unearth new clues that govern the biology of HIV, with the ultimate goal to develop novel vaccine and treatment strategies against HIV.
Molecular basis of glutamate receptor trafficking in neuronal plasticity . Neurons communicate via synapses, where chemicals (such as glutamate) are released to transmit neuronal signals. This proposal is aimed at understanding the molecular mechanisms of neuronal communication and adaptive plasticity, which are essential for normal brain function. The proposed research will combine biophysical, biochemical, molecular and cell biological assays to elucidate how the trafficking of glutamate recep ....Molecular basis of glutamate receptor trafficking in neuronal plasticity . Neurons communicate via synapses, where chemicals (such as glutamate) are released to transmit neuronal signals. This proposal is aimed at understanding the molecular mechanisms of neuronal communication and adaptive plasticity, which are essential for normal brain function. The proposed research will combine biophysical, biochemical, molecular and cell biological assays to elucidate how the trafficking of glutamate receptors is regulated in neurons during plasticity and learning. The outcomes will enhance our understanding of how neural plasticity is generated and maintained, knowledge that is critical for our understanding of the cellular correlates of information, sensory and motor processing, as well as learning, memory and cognition.Read moreRead less
Characterizing the regulators of mitochondrial biogenesis in Arabidopsis thaliana. The overall aim of this project is to identify and characterise the underlying regulatory factors that control mitochondrial mass and number in plants. The project will exploit a regulatory mechanism that links the mitochondrial import machinery and the respiratory chain. Utilising both forward and reverse genetic approaches, the abundances of protein import translocases will be altered and the changes to mitochon ....Characterizing the regulators of mitochondrial biogenesis in Arabidopsis thaliana. The overall aim of this project is to identify and characterise the underlying regulatory factors that control mitochondrial mass and number in plants. The project will exploit a regulatory mechanism that links the mitochondrial import machinery and the respiratory chain. Utilising both forward and reverse genetic approaches, the abundances of protein import translocases will be altered and the changes to mitochondrial biogenesis will be investigated. This will identify regulatory factors, which can be manipulated and used to alter mitochondrial number and activity.Read moreRead less
Interrogating a novel protein scaffold that coordinates signal transduction and molecular motor function. The inside of a cell is an extremely crowded environment and the precise location of each component is carefully controlled. This project will unravel the protein machinery involved in transporting cargos in cells as they divide and identify new protein targets for the development of next generation anti-cancer drugs.
Tracking DNA repair dynamics in the nuclear landscape of a living cell. This project aims to track DNA repair factor recruitment in the nuclear landscape of a living cell and quantify the role of nucleus architecture in maintenance of genome integrity. By coupling advanced fluorescence microscopy with a novel DNA double strand break inducible cell system, this project expects to uncover how the nucleus spatially coordinates DNA damage detection, assessment and repair in real time. This research ....Tracking DNA repair dynamics in the nuclear landscape of a living cell. This project aims to track DNA repair factor recruitment in the nuclear landscape of a living cell and quantify the role of nucleus architecture in maintenance of genome integrity. By coupling advanced fluorescence microscopy with a novel DNA double strand break inducible cell system, this project expects to uncover how the nucleus spatially coordinates DNA damage detection, assessment and repair in real time. This research is important because DNA damage threatens organism survival and this project has the potential to define how this genomic threat is resolved at the single molecule level. The benefit of this research is a fundamental insight into DNA repair biology and development of imaging technology to quantify genome function.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
Regulation of human immunodeficiency virus type 1 (HIV-1) replication by viral and cellular proteins. Using a mouse model, human cells will be treated with a very powerful antiviral protein using a gene therapy approach so as to block the human immunodeficiency virus (HIV) from growing. By learning how this antiviral protein works, this project will assist in the development of new strategies to treat HIV infection.
Defining the molecular mechanisms of intracellular protein trafficking. Intracellular trafficking of proteins is critical for normal cell function and defects can lead to many different human diseases. Outcomes from this project will lead to insights into how trafficking is regulated at the atomic level and will help place Australia at the forefront of international efforts to understand this essential process.
Investigating the intercellular trafficking of proteins and RNA and its relevance to neurodegenerative diseases. Alzheimer's and prion diseases are neurodegenerative disorders associated with protein misfolding. This project brings together similar features of these diseases using novel cell- and animal-based studies to develop a greater understanding of the molecular basis of these disorders.
The role of human single-stranded binding protein (hSSB1) in DNA damage repair and tumorogenesis. Cancer is a leading cause of disease related death world wide, accounting for over 13% of all deaths in 2007. Approximately 38,000 people died in Australia from cancer in 2005. Cancer results from a single cell losing a vital part of its genetic information, this results in the cell losing its normal programming and initiates a process of rapid growth and multiplication. This research project aims t ....The role of human single-stranded binding protein (hSSB1) in DNA damage repair and tumorogenesis. Cancer is a leading cause of disease related death world wide, accounting for over 13% of all deaths in 2007. Approximately 38,000 people died in Australia from cancer in 2005. Cancer results from a single cell losing a vital part of its genetic information, this results in the cell losing its normal programming and initiates a process of rapid growth and multiplication. This research project aims to look at the mechanisms that exist to prevent this initial loss of genetic material within an individual cell. It further aims to translate theses discoveries into the clinic, providing new tools for diagnosis and prognosis of specific cancers and to establish links with major pharmaceutical companies to develop novel anticancer therapies.Read moreRead less