Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein. - Wikidata - awgldk - TriplyDB

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

http://www.wikidata.org/entity/Q34083969

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Voltage-Controlled Enzymes: The New JanusBifrons The design of Förster (fluorescence) resonance energy transfer (FRET)-based molecular sensors for Ran GTPase Genetically encoded fluorescent sensors of membrane potential A new way to rapidly create functional, fluorescent fusion proteins: random insertion of GFP with an in vitro transposition reaction A faster way to make GFP-based biosensors: two new transposons for creating multicolored libraries of fluorescent fusion proteins Design and development of genetically encoded fluorescent sensors to monitor intracellular chemical and physical parameters Genetically Encoded Voltage Indicators in Circulation Research Fluorescent protein biosensors applied to microphysiological systems Closed-loop and activity-guided optogenetic control A fluorescent, genetically-encoded voltage probe capable of resolving action potentials Designs and sensing mechanisms of genetically encoded fluorescent voltage indicators Computational processing of optical measurements of neuronal and synaptic activity in networks.The voltage-gated proton channel Hv1 has two pores, each controlled by one voltage sensor.Rational optimization and imaging in vivo of a genetically encoded optical voltage reporter.Improving FRET dynamic range with bright green and red fluorescent proteins Optical molecular imaging for systems biology: from molecule to organism.Genetically targeted optical electrophysiology in intact neural circuits.Optogenetic approaches for functional mouse brain mapping A review of novel optical imaging strategies of the stroke pathology and stem cell therapy in stroke Engineering and characterization of an enhanced fluorescent protein voltage sensor.Spectrally-resolved response properties of the three most advanced FRET based fluorescent protein voltage probes All-optical electrophysiology in mammalian neurons using engineered microbial rhodopsins Optical sensors for measuring dynamic changes of cytosolic metabolite levels in yeast.Red-shifted voltage-sensitive fluorescent proteins.Fluorescent proteins and their applications in imaging living cells and tissues.Tuning FlaSh: redesign of the dynamics, voltage range, and color of the genetically encoded optical sensor of membrane potential.Single action potentials and subthreshold electrical events imaged in neurons with a fluorescent protein voltage probe.Improved detection of electrical activity with a voltage probe based on a voltage-sensing phosphatase.Imaging neural spiking in brain tissue using FRET-opsin protein voltage sensors.Optical neural interfaces.Imaging into the future: visualizing gene expression and protein interactions with fluorescent proteins.Single-molecule fluorimetry and gating currents inspire an improved optical voltage indicator.Pado, a fluorescent protein with proton channel activity can optically monitor membrane potential, intracellular pH, and map gap junctions Directed Evolution of Key Residues in Fluorescent Protein Inverses the Polarity of Voltage Sensitivity in the Genetically Encoded Indicator ArcLight.Improved probes for hybrid voltage sensor imaging.Improving membrane voltage measurements using FRET with new fluorescent proteins.Enhanced Archaerhodopsin Fluorescent Protein Voltage Indicators Genetically encodable fluorescent biosensors for tracking signaling dynamics in living cells.Fluorescent protein voltage probes derived from ArcLight that respond to membrane voltage changes with fast kinetics.Optrodes for combined optogenetics and electrophysiology in live animals.

P2860

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P2860

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

http://www.wikidata.org/entity/Q34083969

description

2001 nî lūn-bûn

@nan

2001 թուականի Յունիսին հրատարակուած գիտական յօդուած

@hyw

2001 թվականի հունիսին հրատարակված գիտական հոդված

@hy

2001年の論文

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2001年論文

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2001年論文

@zh-hant

2001年論文

@zh-hk

2001年論文

@zh-mo

2001年論文

@zh-tw

2001年论文

@wuu

name

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@ast

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@en

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@nl

type

label

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@ast

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@en

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@nl

prefLabel

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@ast

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@en

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein.

@nl

P1433

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P356

J.0953-816X.2001.01617.X

P1433

European Journal of Neuroscience

P1476

Design and characterization of a DNA-encoded, voltage-sensitive fluorescent protein

@en

P2093

C D Raj

http://www.w3.org/2001/XMLSchema#string

R Sakai

http://www.w3.org/2001/XMLSchema#string

V Repunte-Canonigo

http://www.w3.org/2001/XMLSchema#string

P2860

Circular permutation and receptor insertion within green fluorescent proteins

Spectroscopic mapping of voltage sensor movement in the Shaker potassium channel

Atomic scale movement of the voltage-sensing region in a potassium channel measured via spectroscopy

Dynamic and quantitative Ca2+ measurements using improved cameleons

Crystal structure of the tetramerization domain of the Shaker potassium channel

Potassium channels: watching a voltage-sensor tilt and twist

Cortex-restricted disruption of NMDAR1 impairs neuronal patterns in the barrel cortex

Structural rearrangements underlying K+-channel activation gating.

Mechanism and cellular applications of a green fluorescent protein-based halide sensor.

Using GFP in FRET-based applications.

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2314-2318

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scholarly article

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10.1046/J.0953-816X.2001.01617.X

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12

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13

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Thomas Knöpfel

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2001-06-01T00:00:00Z

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11454036

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P921