Add to ORKGGenetically encoded fluorescent reporters of membrane potential promise to reveal aspects of neural function not detectable by other means. We present a palette of multicoloured brightly fluorescent genetically encoded voltage indicators with sensitivities from 8–13 % DF/F per 100mV, and half-maximal response times from 4–7ms. A fluorescent protein is fused to an archaerhodopsin-derived voltage sensor. Voltage-induced shifts in the absorption spectrum of the rhodopsin lead to voltage-dependent nonradiative quenching of the appended fluorescent protein. Through a library screen, we identify linkers and fluorescent protein combinations that report neuronal action potentials in cultured rat hippocampal neurons with a single-trial signal-to-noi...
A longstanding goal in neuroscience has been to develop techniques for imaging the voltage dynamics ...
<div><p>Visualization of electrical activity in living cells represents an important challenge in co...
SummaryMonitoring neuronal electrical activity using fluorescent protein-based voltage sensors has b...
These authors contributed equally to this work. Genetically encoded fluorescent reporters of membran...
Genetically encoded fluorescent reporters of membrane potential promise to reveal aspects of neural ...
Protein engineering over the past four years has made rhodopsin-based genetically encoded voltage in...
Over the last decade, optical neuroimaging methods have been enriched by engineered biosensors deriv...
We developed genetically encoded voltage indicators using a transmembrane voltage-sensing domain and...
Genetically encoded fluorescence voltage sensors offer the possibility of directly visualizing neura...
There is a pressing need in neuroscience for genetically-encoded, fluorescent voltage probes that ca...
Membrane potential is the critical parameter that reflects the excitability of a neuron, and it is u...
The development of a voltage sensor in which a microbial rhodopsin protein is fused with a fluoresce...
Methods for optical measurement of voltage dynamics in living cells are attractive because they prov...
Comprehensively mapping and recording the electrical inputs and outputs of multiple neurons simultan...
Comprehensively mapping and recording the electrical inputs and outputs of multiple neurons simultan...
A longstanding goal in neuroscience has been to develop techniques for imaging the voltage dynamics ...
<div><p>Visualization of electrical activity in living cells represents an important challenge in co...
SummaryMonitoring neuronal electrical activity using fluorescent protein-based voltage sensors has b...
These authors contributed equally to this work. Genetically encoded fluorescent reporters of membran...
Genetically encoded fluorescent reporters of membrane potential promise to reveal aspects of neural ...
Protein engineering over the past four years has made rhodopsin-based genetically encoded voltage in...
Over the last decade, optical neuroimaging methods have been enriched by engineered biosensors deriv...
We developed genetically encoded voltage indicators using a transmembrane voltage-sensing domain and...
Genetically encoded fluorescence voltage sensors offer the possibility of directly visualizing neura...
There is a pressing need in neuroscience for genetically-encoded, fluorescent voltage probes that ca...
Membrane potential is the critical parameter that reflects the excitability of a neuron, and it is u...
The development of a voltage sensor in which a microbial rhodopsin protein is fused with a fluoresce...
Methods for optical measurement of voltage dynamics in living cells are attractive because they prov...
Comprehensively mapping and recording the electrical inputs and outputs of multiple neurons simultan...
Comprehensively mapping and recording the electrical inputs and outputs of multiple neurons simultan...
A longstanding goal in neuroscience has been to develop techniques for imaging the voltage dynamics ...
<div><p>Visualization of electrical activity in living cells represents an important challenge in co...
SummaryMonitoring neuronal electrical activity using fluorescent protein-based voltage sensors has b...