Neuronal activity can rapidly flip-flop between stable states. Although these semi-stable states can be generated through interactions of neuronal networks, it is now known that they can also occur in vivo through intrinsic ionic currents
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
MPhylogenetic analyses of hundreds of genes from model animals have placed flies closer to vertebrat...
Neuronal activity can rapidly flip-flop between stable states. Although these semi-stable states can...
SummarySynaptic responses are generally studied in the absence of spontaneous spiking, contrasting w...
The mechanisms underlying the dynamics of movement-related neural activity are not known. In this is...
The brain is astonishing in its complexity and capacity for change. This has fascinated scientists f...
Reverberating spontaneous synchronized brain activity is believed to play an important role in neura...
Our brains contain billions of neurons, which are continually producing electrical signals to relay ...
AbstractHow do neurons maintain stable intrinsic properties over long periods of time as the channel...
In this issue of Neuron, MacLean et al. report that thalamic stimulation can evoke spatiotemporal se...
In this issue of Neuron, Sussillo and Abbott describe a new learning rule that helps harness the com...
AbstractReverberating spontaneous synchronized brain activity is believed to play an important role ...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
MPhylogenetic analyses of hundreds of genes from model animals have placed flies closer to vertebrat...
Neuronal activity can rapidly flip-flop between stable states. Although these semi-stable states can...
SummarySynaptic responses are generally studied in the absence of spontaneous spiking, contrasting w...
The mechanisms underlying the dynamics of movement-related neural activity are not known. In this is...
The brain is astonishing in its complexity and capacity for change. This has fascinated scientists f...
Reverberating spontaneous synchronized brain activity is believed to play an important role in neura...
Our brains contain billions of neurons, which are continually producing electrical signals to relay ...
AbstractHow do neurons maintain stable intrinsic properties over long periods of time as the channel...
In this issue of Neuron, MacLean et al. report that thalamic stimulation can evoke spatiotemporal se...
In this issue of Neuron, Sussillo and Abbott describe a new learning rule that helps harness the com...
AbstractReverberating spontaneous synchronized brain activity is believed to play an important role ...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
International audienceNeuronal firing pattern, which includes both the frequency and the timing of a...
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