Optogenetics provides promising tools for the precise control of receptor-mediated cell behaviors in a spatiotemporal manner. Yet, most photoreceptors require extensive genetic manipulation and respond only to ultraviolet or visible light, which are suboptimal for in vivo applications because they do not penetrate thick tissues. Here we report a novel near-infrared light-activated DNA agonist (NIR-DA) nanodevice for nongenetic manipulation of cell signaling and phenotype in deep tissues. This nanodevice is prepared by conjugating a preinactivated DNA agonist onto the gold nanorods (AuNRs). Upon NIR light treatment, the DNA agonist is released through the localized surface plasmon resonance (LSPR)-based photothermal effect of AuNRs and becom...
Enabling near-infrared light sensitivity in a blind human retina may supplement or restore visual fu...
Enabling near-infrared light sensitivity in a blind human retina may supplement or restore visual fu...
Light-mediated remote control of stem cell fate, such as proliferation, differentiation, and migrati...
Optogenetics provides promising tools for the precise control of receptor-mediated cell behaviors in...
The regulation of cellular signaling in vivo has been a challenging task owing to the lack of effect...
Recent discoveries in both investigating and modulating cells have enriched our understanding and kn...
Nanotechnology-assisted spatiotemporal manipulation of biological events holds great promise in adva...
Photoregulation, which utilizes light to remotely control biological events, provides a precise way ...
We investigated whether near-infrared (NIR) light could be employed for patterning transgene express...
Nanotechnology-assisted spatiotemporal manipulation of biological events holds great promise in adva...
Photoregulation, which utilizes light to remotely control biological events, provides a precise way ...
We describe a near infrared (NIR) light-activated gene silencing method in undifferentiated human em...
We describe a near infrared (NIR) light-activated gene silencing method in undifferentiated human em...
We describe a near infrared (NIR) light-activated gene silencing method in undifferentiated human em...
Enabling near-infrared light sensitivity in a blind human retina may supplement or restore visual fu...
Enabling near-infrared light sensitivity in a blind human retina may supplement or restore visual fu...
Enabling near-infrared light sensitivity in a blind human retina may supplement or restore visual fu...
Light-mediated remote control of stem cell fate, such as proliferation, differentiation, and migrati...
Optogenetics provides promising tools for the precise control of receptor-mediated cell behaviors in...
The regulation of cellular signaling in vivo has been a challenging task owing to the lack of effect...
Recent discoveries in both investigating and modulating cells have enriched our understanding and kn...
Nanotechnology-assisted spatiotemporal manipulation of biological events holds great promise in adva...
Photoregulation, which utilizes light to remotely control biological events, provides a precise way ...
We investigated whether near-infrared (NIR) light could be employed for patterning transgene express...
Nanotechnology-assisted spatiotemporal manipulation of biological events holds great promise in adva...
Photoregulation, which utilizes light to remotely control biological events, provides a precise way ...
We describe a near infrared (NIR) light-activated gene silencing method in undifferentiated human em...
We describe a near infrared (NIR) light-activated gene silencing method in undifferentiated human em...
We describe a near infrared (NIR) light-activated gene silencing method in undifferentiated human em...
Enabling near-infrared light sensitivity in a blind human retina may supplement or restore visual fu...
Enabling near-infrared light sensitivity in a blind human retina may supplement or restore visual fu...
Enabling near-infrared light sensitivity in a blind human retina may supplement or restore visual fu...
Light-mediated remote control of stem cell fate, such as proliferation, differentiation, and migrati...
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