The arealization of the mammalian cortex is believed to be controlled by a combination of intrinsic factors that are expressed in the cortex, and external signals, some of which are mediated through thalamic input. Recent studies on transgenic mice have identified families of molecules that are involved in thalamic axon growth, pathfinding and cortical target selection, and we are beginning to understand how thalamic projections impose cytoarchitectonic differentiation on the developing cortex. By unravelling these mechanisms further, we should be able to increase our understanding of the principles of cortical organization
The mammalian cerebral cortex consists of many structurally and functionally specialized areas, with...
The cortex receives its major sensory input from the thalamus via thalamocortical axons, and cortica...
The mammalian brain’s somatosensory cortex is a topographic map of the body’s sensory experience. In...
The arealization of the mammalian cortex is believed to be controlled by a combination of intrinsic ...
SummaryA dynamic interplay between intrinsic regional molecular cues and extrinsic factors from the ...
Thalamocortical projections in mammals must travel through a considerable portion of the newly forme...
We studied thalamocortical afferent (TCA) growth into somatosensory cortex as the whisker barrels em...
A dynamic interplay between intrinsic regional molecular cues and extrinsic factors from the thalamu...
A dynamic interplay between intrinsic regional molecular cues and extrinsic factors from the thalamu...
Thalamic axons, which carry most of the information from the sensory environment, are amongst the fi...
International audienceThalamocortical axons must cross a complex cellular terrain through the develo...
Thalamocortical axons must cross a complex cellular terrain through the developing forebrain, and th...
Sensory systems are represented in the primary sensory areas of the cerebral cortex by anatomical an...
The mechanisms shaping areal specification in the neocortex have been the focus of a sustained inter...
Neocortical and thalamic interactions are necessary for the execution of complex sensory-motor tasks...
The mammalian cerebral cortex consists of many structurally and functionally specialized areas, with...
The cortex receives its major sensory input from the thalamus via thalamocortical axons, and cortica...
The mammalian brain’s somatosensory cortex is a topographic map of the body’s sensory experience. In...
The arealization of the mammalian cortex is believed to be controlled by a combination of intrinsic ...
SummaryA dynamic interplay between intrinsic regional molecular cues and extrinsic factors from the ...
Thalamocortical projections in mammals must travel through a considerable portion of the newly forme...
We studied thalamocortical afferent (TCA) growth into somatosensory cortex as the whisker barrels em...
A dynamic interplay between intrinsic regional molecular cues and extrinsic factors from the thalamu...
A dynamic interplay between intrinsic regional molecular cues and extrinsic factors from the thalamu...
Thalamic axons, which carry most of the information from the sensory environment, are amongst the fi...
International audienceThalamocortical axons must cross a complex cellular terrain through the develo...
Thalamocortical axons must cross a complex cellular terrain through the developing forebrain, and th...
Sensory systems are represented in the primary sensory areas of the cerebral cortex by anatomical an...
The mechanisms shaping areal specification in the neocortex have been the focus of a sustained inter...
Neocortical and thalamic interactions are necessary for the execution of complex sensory-motor tasks...
The mammalian cerebral cortex consists of many structurally and functionally specialized areas, with...
The cortex receives its major sensory input from the thalamus via thalamocortical axons, and cortica...
The mammalian brain’s somatosensory cortex is a topographic map of the body’s sensory experience. In...