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Showing 1–6 of 6 results
Advanced filters: Author: Dina Malounda Clear advanced filters

  • Gas vesicles are air-filled protein nanostructures naturally expressed by certain bacteria and archaea to achieve cellular buoyancy. Here the authors show that, under the stimulation of pulsed ultrasound, targeted gas vesicles and gas vesicles expressed in genetically modified bacteria and mammalian cells release nanobubbles that, collapsing, lead to controlled mechanical damage of the surrounding biological milieu, demonstrating that, under focused ultrasound actuation, gas vesicles have potential applications as therapeutic agents.

    • Avinoam Bar-Zion
    • Atousa Nourmahnad
    • Mikhail G. Shapiro
    Research
    Nature Nanotechnology
    Volume: 16, P: 1403-1412

  • Engineering cleavage sites into gas vesicle proteins enables protease-responsive regulation of gas vesicle mechanics and activates them as ultrasound contrast agents for imaging applications in cells and living mice.

    • Anupama Lakshmanan
    • Zhiyang Jin
    • Mikhail G. Shapiro
    Research
    Nature Chemical Biology
    Volume: 16, P: 988-996

  • The combination of focused ultrasound and virally encoded receptors engineered to be activated by a designer drug enables, on intravenous administration of the drug, the non-invasive activation or inhibition of brain regions in mice, with cell-type and spatiotemporal specificity.

    • Jerzy O. Szablowski
    • Audrey Lee-Gosselin
    • Mikhail G. Shapiro
    Research
    Nature Biomedical Engineering
    Volume: 2, P: 475-484