Many models of cortical dynamics have focused on the high-firing regime, in which neurons are driven near their maximal rate. Here we consider the responses of neurons in auditory cortex under typical low-firing rate conditions, when stimuli have not been optimized to drive neurons maximally. We used whole-cell patch-clamp recording in vivo to measure subthreshold membrane potential fluctuations in rat primary auditory cortex in both the anesthetized and awake preparations. By analyzing the subthreshold membrane potential dynamics on single trials, we made inferences about the underlying population activity. We found that, during both spontaneous and evoked responses, membrane potential was highly non-Gaussian, with dynamics consisting of o...
Cortical populations are typically in an asynchronous state, sporadically interrupted by brief epoch...
The auditory cortex encodes information about sounds through the combined activity of large numbers ...
How do cortical neurons represent the acoustic environment? This ques-tion is often addressed by pro...
How do neuronal populations in the auditory cortex represent acoustic stimuli? Although sound-evoked...
How do neuronal populations in the auditory cortex represent simple acoustic stimuli? We ap-proach t...
How do neuronal populations in the auditory cortex represent acoustic stimuli? Although sound-evoked...
Experiments in certain regions of the cerebral cortex suggest that the spiking activity of neuronalp...
Recordings of single neurons have yielded great insights into the way acoustic stimuli are represent...
How do cortical neurons represent the acoustic environment? This question is often addressed by prob...
Experiments in certain regions of the cerebral cortex suggest that the spiking activity of neuronalp...
Cortical neurons are often classified by current-frequency relationship. Such a static description i...
Cortical information processing depends critically on an animal’s brain state. Previous research has...
The high variability of cortical sensory responses is often assumed to impose a major constraint on ...
The dynamics of subthreshold membrane potential provide insight into the organization of activity in...
The responses of neocortical cells to sensory stimuli are variable and state dependent. It has been ...
Cortical populations are typically in an asynchronous state, sporadically interrupted by brief epoch...
The auditory cortex encodes information about sounds through the combined activity of large numbers ...
How do cortical neurons represent the acoustic environment? This ques-tion is often addressed by pro...
How do neuronal populations in the auditory cortex represent acoustic stimuli? Although sound-evoked...
How do neuronal populations in the auditory cortex represent simple acoustic stimuli? We ap-proach t...
How do neuronal populations in the auditory cortex represent acoustic stimuli? Although sound-evoked...
Experiments in certain regions of the cerebral cortex suggest that the spiking activity of neuronalp...
Recordings of single neurons have yielded great insights into the way acoustic stimuli are represent...
How do cortical neurons represent the acoustic environment? This question is often addressed by prob...
Experiments in certain regions of the cerebral cortex suggest that the spiking activity of neuronalp...
Cortical neurons are often classified by current-frequency relationship. Such a static description i...
Cortical information processing depends critically on an animal’s brain state. Previous research has...
The high variability of cortical sensory responses is often assumed to impose a major constraint on ...
The dynamics of subthreshold membrane potential provide insight into the organization of activity in...
The responses of neocortical cells to sensory stimuli are variable and state dependent. It has been ...
Cortical populations are typically in an asynchronous state, sporadically interrupted by brief epoch...
The auditory cortex encodes information about sounds through the combined activity of large numbers ...
How do cortical neurons represent the acoustic environment? This ques-tion is often addressed by pro...