Add to ORKGIn the rodent somatosensory cortex, whisker-related barrels in layer IV are morphological counterparts of functional cortical columns that extend throughout the cortical depth. We used microelectrode recordings and spike-triggered averaging of field potentials evoked by single thalamic barreloid neurons to investigate functional thalamocortical microcircuits. The function of such circuits was probed by deflecting the principal whisker of a barrel in different angular directions. We found that individual barrels contain minicolumns of neurons preferring the same deflection angle. Angular tuning domains are established by convergent inputs from thalamocortical cells with corresponding angular preferences. Processing within such domains may de...
Whole-cell voltage recordings were made in vivo from excitatory neurons (n = 23) in layer 4 of the b...
T.N. performed the measurements on tissue shrinkage and R.M.B. contributed the reconstructions of sp...
Excitatory and inhibitory cortical layer IV neurons have distinctive response properties. Thalamocor...
In the rodent somatosensory cortex, whisker−related barrels in layer IV are morphological counterpar...
Synaptic circuits bind together functional modules of the neocortex. We aim to clarify in a rodent m...
AbstractCorticothalamic (CT) projections are ∼10 times more numerous than thalamocortical projection...
The cellular organization of the cortex is of fundamental importance for elucidating the structural ...
In this project, we use recent findings from electrophysiological recordings and a previous model of...
Whisker movement is somatotopically represented in rodent neocortex by electrical activity in clearl...
Inhibitory and excitatory neurons located in rodent barrel cortex are known to form functional circu...
xcitatory and inhibitory cortical layer IV neurons have distinctive response properties. Thalamocort...
Excitatory neurons at the level of cortical layer 4 in the rodent somatosensory barrel field often d...
Somatosensory thalamus and cortex in rodents contain topological representations of the facial whisk...
A prominent feature of thalamocortical circuitry in sensory systems is the extensive and highly orga...
Sensory whiskers are mapped to rodent layer 4 somatosensory cortex as discrete units termed barrels,...
Whole-cell voltage recordings were made in vivo from excitatory neurons (n = 23) in layer 4 of the b...
T.N. performed the measurements on tissue shrinkage and R.M.B. contributed the reconstructions of sp...
Excitatory and inhibitory cortical layer IV neurons have distinctive response properties. Thalamocor...
In the rodent somatosensory cortex, whisker−related barrels in layer IV are morphological counterpar...
Synaptic circuits bind together functional modules of the neocortex. We aim to clarify in a rodent m...
AbstractCorticothalamic (CT) projections are ∼10 times more numerous than thalamocortical projection...
The cellular organization of the cortex is of fundamental importance for elucidating the structural ...
In this project, we use recent findings from electrophysiological recordings and a previous model of...
Whisker movement is somatotopically represented in rodent neocortex by electrical activity in clearl...
Inhibitory and excitatory neurons located in rodent barrel cortex are known to form functional circu...
xcitatory and inhibitory cortical layer IV neurons have distinctive response properties. Thalamocort...
Excitatory neurons at the level of cortical layer 4 in the rodent somatosensory barrel field often d...
Somatosensory thalamus and cortex in rodents contain topological representations of the facial whisk...
A prominent feature of thalamocortical circuitry in sensory systems is the extensive and highly orga...
Sensory whiskers are mapped to rodent layer 4 somatosensory cortex as discrete units termed barrels,...
Whole-cell voltage recordings were made in vivo from excitatory neurons (n = 23) in layer 4 of the b...
T.N. performed the measurements on tissue shrinkage and R.M.B. contributed the reconstructions of sp...
Excitatory and inhibitory cortical layer IV neurons have distinctive response properties. Thalamocor...