Laws of attraction and repulsion: a novel family of bacterial chemo-sensors. This project aims to reveal the structural basis for the abilities of a newly characterised, widespread family of chemotaxis receptors to sense and distinguish between attractants and repellents. Many bacteria are motile. Controlling the movement of bacterial populations requires understanding of their chemosensory mechanisms. It is anticipated that this work will generate significant new knowledge in the field of signa ....Laws of attraction and repulsion: a novel family of bacterial chemo-sensors. This project aims to reveal the structural basis for the abilities of a newly characterised, widespread family of chemotaxis receptors to sense and distinguish between attractants and repellents. Many bacteria are motile. Controlling the movement of bacterial populations requires understanding of their chemosensory mechanisms. It is anticipated that this work will generate significant new knowledge in the field of signalling biology that will drive the discovery of novel chemo-effectors and the redesign of receptor specificity. Innovative use of this knowledge could be the development of new classes of repellents that are not toxic. These could be used as a means to prevent infections caused by bacterial build-up on implanted medical devices.Read moreRead less
Structural and functional studies of Helicobacter pylori flagellar motor. This project investigates the bacterial flagellar motor specialised for locomotion in viscous fluids. Its striking feature, revealed by cryo-tomography, is a complex cage-like protein scaffold that is hypothesised to stabilise the wider force-generating ring of the motor to sustain a larger turning force. The aim is to unravel the make-up of this scaffold and the structural basis for its ability to recruit more force-gener ....Structural and functional studies of Helicobacter pylori flagellar motor. This project investigates the bacterial flagellar motor specialised for locomotion in viscous fluids. Its striking feature, revealed by cryo-tomography, is a complex cage-like protein scaffold that is hypothesised to stabilise the wider force-generating ring of the motor to sustain a larger turning force. The aim is to unravel the make-up of this scaffold and the structural basis for its ability to recruit more force-generating units, in order to advance our fundamental knowledge about the mechanism of the bacterial flagellar motor, and about strategies used by nature to increase its performance under high viscosity conditions. This research is expected to add a new paradigm for how polar flagellar motors assemble and function in bacteria.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100066
Funder
Australian Research Council
Funding Amount
$443,311.00
Summary
Electrophysiology facility for cell phenotyping and drug discovery. This project aims to establish a high-throughput, automated patch clamp facility to enable research at the forefront of cell phenotyping and drug discovery. Ion channels are membrane proteins that underlie cell function and are therefore important drug targets. The patch clamp technique is the most powerful tool available to functionally characterise cells and study the function of ion channels. The significant advance provided ....Electrophysiology facility for cell phenotyping and drug discovery. This project aims to establish a high-throughput, automated patch clamp facility to enable research at the forefront of cell phenotyping and drug discovery. Ion channels are membrane proteins that underlie cell function and are therefore important drug targets. The patch clamp technique is the most powerful tool available to functionally characterise cells and study the function of ion channels. The significant advance provided by the high-throughput, automated patch clamp system is that it allows up to 384 cells to be recorded simultaneously. This project expects to enhance capacity to automate and standardise the quality of recordings, substantially increase the rate of data production, and enable greater access to patch clamp technology.Read moreRead less