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Discovery Early Career Researcher Award - Grant ID: DE190100609
Funder
Australian Research Council
Funding Amount
$368,000.00
Summary
Mechanobiology: a new model of integrin activation by membrane tension. This project aims to address a fundamental question in mechanobiology on how integrin receptor coordinates with force to mediate cell spreading, migration, growth and survival. With an observation that membrane deformation enhances integrin binding, the project expects to establish a new model of integrin activation by membrane tension. It will develop an integrated approach combining single-molecule force probes, super reso ....Mechanobiology: a new model of integrin activation by membrane tension. This project aims to address a fundamental question in mechanobiology on how integrin receptor coordinates with force to mediate cell spreading, migration, growth and survival. With an observation that membrane deformation enhances integrin binding, the project expects to establish a new model of integrin activation by membrane tension. It will develop an integrated approach combining single-molecule force probes, super resolution microscopy, microfluidics and molecular dynamics simulations. It is expected that the role of membrane tension in promoting cell adhesion will be defined at molecular scale, and the link between integrin activation and Piezo calcium channel mediated membrane tension sensing will be delineated.Read moreRead less
Tuning Molecular Translocaton by Close-Field Electroporation. This project aims to determine the underlying mechanisms by which DNA and other molecules are able to migrate across the cell membrane in response to highly localised electric fields. It has recently been shown that focusing of electric fields at the cellular level, using an array of small electrodes, results in unexpectedly high cell transfection efficiencies. It has been termed 'close-field electroporation'. Here it is proposed t ....Tuning Molecular Translocaton by Close-Field Electroporation. This project aims to determine the underlying mechanisms by which DNA and other molecules are able to migrate across the cell membrane in response to highly localised electric fields. It has recently been shown that focusing of electric fields at the cellular level, using an array of small electrodes, results in unexpectedly high cell transfection efficiencies. It has been termed 'close-field electroporation'. Here it is proposed to establish the properties of the electric fields around cells and cell membrane interactions with these fields that enable molecular translocation. This fundamental science could have broad implications in the domains of drug delivery, gene therapy and neural stimulation.Read moreRead less