Add to ORKGGas vesicles (GVs) are a unique class of gas-filled protein nanostructures that are detectable at subnanomolar concentrations and whose physical properties allow them to serve as highly sensitive imaging agents for ultrasound and MRI. Here we provide a protocol for isolating GVs from native and heterologous host organisms, functionalizing these nanostructures with moieties for targeting and fluorescence, characterizing their biophysical properties and imaging them using ultrasound and MRI. GVs can be isolated from natural cyanobacterial and haloarchaeal host organisms or from Escherichia coli expressing a heterologous GV gene cluster and purified using buoyancy-assisted techniques. They can then be modified by replacing surface-bound protei...
Gas vesicle nanoparticles (GVs) are gas-containing protein assemblies expressed in bacteria and arch...
The formation of gas vesicles has been investigated in bacteria and haloarchaea for more than 50 yea...
Halophilic archaeabacterial gas vesicles (GVs) are a class of protein nanobubbles isolated from buoy...
Gas vesicles (GVs) are a unique class of gas-filled protein nanostructures that are detectable at su...
The study of cellular and molecular processes occurring deep inside living organisms requires new te...
Expanding the capabilities of ultrasound for biological and diagnostic imaging requires the developm...
Many important biological processes – ranging from simple metabolism to complex cognition – take pla...
Ultrasound and hyperpolarized magnetic resonance imaging enable the visualization of biological proc...
Ultrasound is among the most widely used non-invasive imaging modalities in biomedicine1, but plays ...
Ultrasound is currently limited in its ability to image dynamic molecular and cellular processes due...
Visualizing biomolecular and cellular processes in real time within deep tissues is fundamental to o...
Ultrasound is among the most widely used non-invasive imaging modalities in biomedicine1, but plays ...
Ultrasound is among the most widely used non-invasive imaging modalities in biomedicine, but plays a...
Ultrasound is among the most widely used biomedical imaging modalities, but has limited ability to i...
Non-invasive biological imaging requires materials capable of interacting with deeply penetrant form...
Gas vesicle nanoparticles (GVs) are gas-containing protein assemblies expressed in bacteria and arch...
The formation of gas vesicles has been investigated in bacteria and haloarchaea for more than 50 yea...
Halophilic archaeabacterial gas vesicles (GVs) are a class of protein nanobubbles isolated from buoy...
Gas vesicles (GVs) are a unique class of gas-filled protein nanostructures that are detectable at su...
The study of cellular and molecular processes occurring deep inside living organisms requires new te...
Expanding the capabilities of ultrasound for biological and diagnostic imaging requires the developm...
Many important biological processes – ranging from simple metabolism to complex cognition – take pla...
Ultrasound and hyperpolarized magnetic resonance imaging enable the visualization of biological proc...
Ultrasound is among the most widely used non-invasive imaging modalities in biomedicine1, but plays ...
Ultrasound is currently limited in its ability to image dynamic molecular and cellular processes due...
Visualizing biomolecular and cellular processes in real time within deep tissues is fundamental to o...
Ultrasound is among the most widely used non-invasive imaging modalities in biomedicine1, but plays ...
Ultrasound is among the most widely used non-invasive imaging modalities in biomedicine, but plays a...
Ultrasound is among the most widely used biomedical imaging modalities, but has limited ability to i...
Non-invasive biological imaging requires materials capable of interacting with deeply penetrant form...
Gas vesicle nanoparticles (GVs) are gas-containing protein assemblies expressed in bacteria and arch...
The formation of gas vesicles has been investigated in bacteria and haloarchaea for more than 50 yea...
Halophilic archaeabacterial gas vesicles (GVs) are a class of protein nanobubbles isolated from buoy...