Creation of a super-resolution map of the bacterial cytokinesis machinery . Cell division is a fundamental process essential for life. Yet our understanding of this process on a molecular level is limited, mostly hampered by the inability to visualize the different components of the division machinery inside these tiny cells with adequate resolution. To overcome this barrier, capitalizing on recent advancements in imaging and molecular technologies combined with innovative engineering, this proj ....Creation of a super-resolution map of the bacterial cytokinesis machinery . Cell division is a fundamental process essential for life. Yet our understanding of this process on a molecular level is limited, mostly hampered by the inability to visualize the different components of the division machinery inside these tiny cells with adequate resolution. To overcome this barrier, capitalizing on recent advancements in imaging and molecular technologies combined with innovative engineering, this project aims to create a spatial and temporal map of the division machinery inside bacterial cells at unprecedented resolution. The expected outcomes are new knowledge on the mechanism of bacterial division and technological advances in biological imaging, informing applications in a wide variety of sectors.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100127
Funder
Australian Research Council
Funding Amount
$355,000.00
Summary
Superresolution fluorescence imaging in microbiology. Superresolution fluorescence imaging in microbiology:
This project involves the purchase of new, and upgrade of existing, fluorescence imaging tools to facilitate the study of intracellular processes in microbial systems at significantly higher spatial and temporal resolutions than hitherto possible. Visualisation of the structure and dynamics of intracellular molecular assemblies at maximal resolution is required to understand protein funct ....Superresolution fluorescence imaging in microbiology. Superresolution fluorescence imaging in microbiology:
This project involves the purchase of new, and upgrade of existing, fluorescence imaging tools to facilitate the study of intracellular processes in microbial systems at significantly higher spatial and temporal resolutions than hitherto possible. Visualisation of the structure and dynamics of intracellular molecular assemblies at maximal resolution is required to understand protein function inside living cells. The new equipment is designed to provide a fast super-resolution imaging system to study the intracellular dynamics of proteins in vitro and a super-resolution microscope to visualise structures and assemblies inside microbes with a resolution of tens of nanometres, putting in vitro biochemistry into the context of a living cell. Read moreRead less
Development of electrophoretic cell sorters. The aim of this research is to develop the next generation of cell sorters to scale production of viable sperm and other cell types. Our approach is to understand the factors that control the migration of cells in an electric field so that we can design large-scale devices to purify cells using electrophoretic separation. The outcomes of this research enable large-scale production of viable sperm for human and animal-assisted conception, benefiting in ....Development of electrophoretic cell sorters. The aim of this research is to develop the next generation of cell sorters to scale production of viable sperm and other cell types. Our approach is to understand the factors that control the migration of cells in an electric field so that we can design large-scale devices to purify cells using electrophoretic separation. The outcomes of this research enable large-scale production of viable sperm for human and animal-assisted conception, benefiting infertile couples and the livestock breeding industry. Successful development of an efficient cell separation technology would add significant commercial value to the Australian biomanufacturing sector. Read moreRead less
Engineering of a novel export system for industrially important amino acids. This project aims to understand the gating mechanism of MscCG (a major amino acid exporter) and improve the amino acid production by designing a highly effective MscCG-like export system for selective membrane transport of industrially relevant amino acids. Amino acid production is one of the most promising global markets, driven by growing meat consumption in developing countries. The project aims to elucidate the thre ....Engineering of a novel export system for industrially important amino acids. This project aims to understand the gating mechanism of MscCG (a major amino acid exporter) and improve the amino acid production by designing a highly effective MscCG-like export system for selective membrane transport of industrially relevant amino acids. Amino acid production is one of the most promising global markets, driven by growing meat consumption in developing countries. The project aims to elucidate the three-dimensional structure of MscCG and identify important parts. In doing so, the project aims to design more efficient and economic amino acid production.Read moreRead less