Multifunctional biodegradable nanoparticles for enhanced DNA vaccine delivery. DNA vaccine, which shows better immunological and economic merits than conventional vaccines, suffers clinical failure due to the difficulty of delivering intact DNA molecules to relevant cells. This project seeks to develop smart polymer nanospheres to protect the DNA molecules from premature degradation in order to improve its efficacy.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100004
Funder
Australian Research Council
Funding Amount
$540,000.00
Summary
An automated 3D electron microscopy facility. An automated 3D electron microscopy facility: The aim of this project is to establish the next generation of electron microscopy facility, with a fully automated tool enabling 3D imaging. The automated serial section system incorporated in a scanning electron microscope circumvents the limitation of transmission electron microscopy, which provides unique insights into molecular structures and cell components at high resolution, however, the area and ....An automated 3D electron microscopy facility. An automated 3D electron microscopy facility: The aim of this project is to establish the next generation of electron microscopy facility, with a fully automated tool enabling 3D imaging. The automated serial section system incorporated in a scanning electron microscope circumvents the limitation of transmission electron microscopy, which provides unique insights into molecular structures and cell components at high resolution, however, the area and volume are limited in size to a few microns. This new type of microscope can image whole organisms and be used by non-electron microscopists. It will be housed in an open access facility and will meet a growing demand for 3D electron microscopy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100100
Funder
Australian Research Council
Funding Amount
$440,000.00
Summary
Cytometer by Time of Flight (CyTOF): A New Paradigm in Cytometry. Cytometer by Time of Flight (CyTOF) - a new paradigm in cytometry: The acquisition of a Cytometer by Time of Flight will allow multiparametric characterisation of biological systems and quantitative analysis of nano-bio interactions at the single cell level. The convergence of nanotechnology with biomedicine offers unprecedented opportunities for biological applications, including targeted therapeutics. One of the major challenges ....Cytometer by Time of Flight (CyTOF): A New Paradigm in Cytometry. Cytometer by Time of Flight (CyTOF) - a new paradigm in cytometry: The acquisition of a Cytometer by Time of Flight will allow multiparametric characterisation of biological systems and quantitative analysis of nano-bio interactions at the single cell level. The convergence of nanotechnology with biomedicine offers unprecedented opportunities for biological applications, including targeted therapeutics. One of the major challenges lies in understanding the complex interactions between nanoengineered materials and biological systems.Read moreRead less
Trafficking inside the cell for effective immunity. This project aims to investigate how cargo is trafficked to the right destination inside cells. The project will investigate the trafficking routes and the critical machinery required. This project is expected to generate fundamental new knowledge in the areas of cell biology and immunology. Expected outcomes of this Project include scholarly publications and highly-trained personnel in cell biology and immunology. This project will provide sig ....Trafficking inside the cell for effective immunity. This project aims to investigate how cargo is trafficked to the right destination inside cells. The project will investigate the trafficking routes and the critical machinery required. This project is expected to generate fundamental new knowledge in the areas of cell biology and immunology. Expected outcomes of this Project include scholarly publications and highly-trained personnel in cell biology and immunology. This project will provide significant benefits such as advances to fundamental knowledge, training for higher research degree students, opportunities for the biotechnology sector and strengthened international (research collaborations.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100163
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
Live Cell Super Resolution Imaging Facility. The recent convergence of nanoscience and biology heralds a new era for the development of new biotechnologies. Advances in this field are critically dependent on being able to explore and understand the interactions of nanomaterials with cells in their live, dynamic state. This proposal aims to establish a Live Cell Super Resolution Imaging Facility, which will enable dynamic nanomaterial–cell interactions to be interrogated. This facility will under ....Live Cell Super Resolution Imaging Facility. The recent convergence of nanoscience and biology heralds a new era for the development of new biotechnologies. Advances in this field are critically dependent on being able to explore and understand the interactions of nanomaterials with cells in their live, dynamic state. This proposal aims to establish a Live Cell Super Resolution Imaging Facility, which will enable dynamic nanomaterial–cell interactions to be interrogated. This facility will underpin leading research programs at The University of Melbourne, Monash University, RMIT, the Peter MacCallum Cancer Centre and the Bionics Institute, promoting synergies across the physical and biological sciences for generating new knowledge and advancing bio-nanoscience and technology.Read moreRead less
Bioprogramming the behaviour of nanoparticles in live cells by nanoscopy . The project aims to develop safer materials that are sustainably sourced from sweet corn, and investigate using advanced imaging technologies, how these materials are processed in biological systems, including human and plant cells. This project expects to generate new knowledge in the optimal design of materials that can be used safely and effectively in biological applications in medicine and in agriculture. Expected ou ....Bioprogramming the behaviour of nanoparticles in live cells by nanoscopy . The project aims to develop safer materials that are sustainably sourced from sweet corn, and investigate using advanced imaging technologies, how these materials are processed in biological systems, including human and plant cells. This project expects to generate new knowledge in the optimal design of materials that can be used safely and effectively in biological applications in medicine and in agriculture. Expected outcomes of this multidisciplinary project include a library of highly biocompatible nanomaterials and expanded knowledge on imaging technologies and structure-function relationship of nanomaterials in biological cells. This should provide significant benefits, such as improved crop yields and safer transfection agents.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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100008
Funder
Australian Research Council
Funding Amount
$347,500.00
Summary
Super Resolution Confocal Microscopy Facility. Super resolution confocal microscopy facility:
This project aims to establish a super-resolution confocal microscopy facility with unrivalled resolution, sensitivity and speed. The widespread application of super-resolution microscopy has so far been limited because of the special sample preparation and technical skills required. The project aims to provide us with the ability to image thicker samples, such as animal and plant tissue, without these ....Super Resolution Confocal Microscopy Facility. Super resolution confocal microscopy facility:
This project aims to establish a super-resolution confocal microscopy facility with unrivalled resolution, sensitivity and speed. The widespread application of super-resolution microscopy has so far been limited because of the special sample preparation and technical skills required. The project aims to provide us with the ability to image thicker samples, such as animal and plant tissue, without these limitations. This would enable us to capture three-dimensional data at both the cellular and tissue level, providing researchers with a level of detail never before seen. The facility may create new knowledge in life science, including visual neuroscience, developmental neurobiology, plant growth, stem cell regeneration, the role of trace metals in physiology, and vaccine and drug development.Read moreRead less