Add to ORKGElectrical and pharmacological stimulation methods are commonly used to study neuronal brain circuits in vivo, but are problematic, because electrical stimulation has limited specificity, while pharmacological activation has low temporal resolution. A recently developed alternative to these methods is the use of optogenetic techniques, based on the expression of light sensitive channel proteins in neurons. While optogenetics have been applied in in vitro preparations and in in vivo studies in rodents, their use to study brain function in nonhuman primates has been limited to the cerebral cortex. Here, we characterize the effects of channelrhodopsin-2 (ChR2) transfection in subcortical areas, i.e., the putamen, the external globus pallidus (...
In optogenetics, targeted illumination is used to control the functions of cells expressing exogenou...
International audienceOver the last 15 years, optogenetics has changed fundamental research in neuro...
<p><strong>Precise spatial and temporal manipulation of neural activity in specific genetically defi...
<div><p>Electrical and pharmacological stimulation methods are commonly used to study neuronal brain...
Electrical and pharmacological stimulation methods are commonly used to study neuronal brain circuit...
To understand how brain states and behaviors are generated by neural circuits, it would be useful to...
SummaryTo understand how brain states and behaviors are generated by neural circuits, it would be us...
Optogenetics is a potentially powerful tool to manipulate and map specific neural circuits. The few ...
Optogenetics and electrical stimulation are routinely used to assess neuronal connectivity. However ...
In this issue of Neuron, Han and colleagues bring optogenetic methods into use in nonhuman primates ...
To understand how brain states and behaviors are generated by neural circuits, it would be useful to...
colleagues (2009) found that the activity primate model. The nonhuman primate isthe channel leads to...
Optogenetics has emerged as a powerful tool for studying the neural basis of simple behaviors in rod...
The discovery of Channelrhodopsins (ChRs) allows their application in the field of neuroscience, so ...
The optogenetic tool channelrhodopsin-2 (ChR2) is widely used to excite neurons to study neural circ...
In optogenetics, targeted illumination is used to control the functions of cells expressing exogenou...
International audienceOver the last 15 years, optogenetics has changed fundamental research in neuro...
<p><strong>Precise spatial and temporal manipulation of neural activity in specific genetically defi...
<div><p>Electrical and pharmacological stimulation methods are commonly used to study neuronal brain...
Electrical and pharmacological stimulation methods are commonly used to study neuronal brain circuit...
To understand how brain states and behaviors are generated by neural circuits, it would be useful to...
SummaryTo understand how brain states and behaviors are generated by neural circuits, it would be us...
Optogenetics is a potentially powerful tool to manipulate and map specific neural circuits. The few ...
Optogenetics and electrical stimulation are routinely used to assess neuronal connectivity. However ...
In this issue of Neuron, Han and colleagues bring optogenetic methods into use in nonhuman primates ...
To understand how brain states and behaviors are generated by neural circuits, it would be useful to...
colleagues (2009) found that the activity primate model. The nonhuman primate isthe channel leads to...
Optogenetics has emerged as a powerful tool for studying the neural basis of simple behaviors in rod...
The discovery of Channelrhodopsins (ChRs) allows their application in the field of neuroscience, so ...
The optogenetic tool channelrhodopsin-2 (ChR2) is widely used to excite neurons to study neural circ...
In optogenetics, targeted illumination is used to control the functions of cells expressing exogenou...
International audienceOver the last 15 years, optogenetics has changed fundamental research in neuro...
<p><strong>Precise spatial and temporal manipulation of neural activity in specific genetically defi...