Add to ORKGNon-invasive biological imaging requires materials capable of interacting with deeply penetrant forms of energy such as magnetic fields and sound waves. Here, we show that gas vesicles (GVs), a unique class of gas-filled protein nanostructures with differential magnetic susceptibility relative to water, can produce robust contrast in magnetic resonance imaging (MRI) at sub-nanomolar concentrations, and that this contrast can be inactivated with ultrasound in situ to enable background-free imaging. We demonstrate this capability in vitro, in cells expressing these nanostructures as genetically encoded reporters, and in three model in vivo scenarios. Genetic variants of GVs, differing in their magnetic or mechanical phenotypes, allow multiple...
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...
The ability to mechanically manipulate and control the spatial arrangement of biological materials i...
Non-invasive biological imaging requires materials capable of interacting with deeply penetrant form...
The study of cellular and molecular processes occurring deep inside living organisms requires new te...
Ultrasound and hyperpolarized magnetic resonance imaging enable the visualization of biological proc...
Genetically encoded optical reporters such as green fluorescent protein (GFP) have revolutionized bi...
Many important biological processes – ranging from simple metabolism to complex cognition – take pla...
Gas vesicles (GVs) are a unique class of gas-filled protein nanostructures that are detectable at su...
Visualizing biomolecular and cellular processes in real time within deep tissues is fundamental to o...
Ultrasound is currently limited in its ability to image dynamic molecular and cellular processes due...
Ultrasound is among the most widely used non-invasive imaging modalities in biomedicine1, but plays ...
The study of cellular function within the context of intact living organisms is a grand challenge in...
Expanding the capabilities of ultrasound for biological and diagnostic imaging requires the developm...
Ultrasound is among the most widely used biomedical imaging modalities, but has limited ability to i...
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...
The ability to mechanically manipulate and control the spatial arrangement of biological materials i...
Non-invasive biological imaging requires materials capable of interacting with deeply penetrant form...
The study of cellular and molecular processes occurring deep inside living organisms requires new te...
Ultrasound and hyperpolarized magnetic resonance imaging enable the visualization of biological proc...
Genetically encoded optical reporters such as green fluorescent protein (GFP) have revolutionized bi...
Many important biological processes – ranging from simple metabolism to complex cognition – take pla...
Gas vesicles (GVs) are a unique class of gas-filled protein nanostructures that are detectable at su...
Visualizing biomolecular and cellular processes in real time within deep tissues is fundamental to o...
Ultrasound is currently limited in its ability to image dynamic molecular and cellular processes due...
Ultrasound is among the most widely used non-invasive imaging modalities in biomedicine1, but plays ...
The study of cellular function within the context of intact living organisms is a grand challenge in...
Expanding the capabilities of ultrasound for biological and diagnostic imaging requires the developm...
Ultrasound is among the most widely used biomedical imaging modalities, but has limited ability to i...
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...
The ability to mechanically manipulate and control the spatial arrangement of biological materials i...