A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
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Smartphone-controlled optogenetically engineered cells enable semiautomatic glucose homeostasis in diabetic mice.Low Efficiency Upconversion Nanoparticles for High-Resolution Coalignment of Near-Infrared and Visible Light Paths on a Light Microscope.Near-infrared bioluminescent proteins for two-color multimodal imaging.Interrogating cellular perception and decision making with optogenetic tools.The Vitamin B12-Dependent Photoreceptor AerR Relieves Photosystem Gene Repression by Extending the Interaction of CrtJ with Photosystem Promoters.Optogenetic switches for light-controlled gene expression in yeast.Interactions Between phyB and PIF Proteins Alter Thermal Reversion Reactions in vitro.Optogenetic Immunomodulation: Shedding Light on Antitumor Immunity.Optogenetic toolkit for precise control of calcium signaling.Emerging tools to study enteric neuromuscular function.Photoactivated cells link diagnosis and therapy.Engineering genetically-encoded tools for optogenetic control of protein activity.At Light Speed: Advances in Optogenetic Systems for Regulating Cell Signaling and Behavior.A Phytochrome-Derived Photoswitch for Intracellular TransportTime-Resolved Energetics of Photoprocesses in Prokaryotic Phytochrome-Related Photoreceptors.Deep tissue optical focusing and optogenetic modulation with time-reversed ultrasonically encoded light.Optimized light-inducible transcription in mammalian cells using Flavin Kelch-repeat F-box1/GIGANTEA and CRY2/CIB1.Optogenetic tools for cell biological applications.Near-infrared fluorescent protein iRFP713 as a reporter protein for optogenetic vectors, a transgenic Cre-reporter rat, and other neuronal studies.Light-activated protein interaction with high spatial subcellular confinement.Recent advances in the synthesis of functional materials by engineered and recombinant living cells.Biosynthesis of Orthogonal Molecules Using Ferredoxin and Ferredoxin-NADP+ Reductase Systems Enables Genetically Encoded PhyB Optogenetics.Optogenetics: Switching with red and blue.Near-infrared optogenetic pair for protein regulation and spectral multiplexing.Optogenetically controlled protein kinases for regulation of cellular signaling.Optogenetic regulation of transcription.OCP-FRP protein complex topologies suggest a mechanism for controlling high light tolerance in cyanobacteria
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P2860
A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 09 May 2016
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
@en
A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
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type
label
A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
@en
A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
@nl
prefLabel
A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
@en
A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
@nl
P2860
P356
P1433
P1476
A bacterial phytochrome-based optogenetic system controllable with near-infrared light.
@en
P2093
Anton A Shemetov
Vladislav V Verkhusha
P2860
P2888
P304
P356
10.1038/NMETH.3864
P577
2016-05-09T00:00:00Z
P6179
1034055029