Background:It is generally assumed that visual cortical cells homogeneously shift their ocular dominance (OD) in response to monocular deprivation (MD), however little experimental evidence directly supports this notion. By using immunohistochemistry for the activity-dependent markers c-Fos and Arc, coupled with staining for markers of inhibitory cortical sub-populations, we studied whether long-term MD initiated at P21 differentially affects visual response of inhibitory neurons in rat binocular primary visual cortex.Methodology/Principal Findings:The inhibitory markers GAD67, parvalbumin (PV), calbindin (CB) and calretinin (CR) were used. Visually activated Arc did not colocalize with PV and was discarded from further studies. MD decrease...
Proper functioning of the visual system depends on maturation of both excitatory and inhibitory syna...
Experience-dependent plasticity in the mature visual system is widely considered to be cortical. Usi...
Background To ensure that neuronal networks function in a stable fashion, neurons receive balanced i...
Background:It is generally assumed that visual cortical cells homogeneously shift their ocular domin...
It is generally assumed that visual cortical cells homogeneously shift their ocular dominance (OD) i...
Monocular deprivation (MD) during development shifts the ocular preference of primary visual cortex ...
Monocular deprivation (MD) during development leads to a dramatic loss of responsiveness through the...
Monocular visual deprivation (MD) produces profound changes in the ocular dominance (OD) of neurons ...
Early sensory experience instructs the maturation of neural circuitry in the cortex. This has been s...
<p>Understanding plasticity and learning has been a fundamental question of neuroscience for decades...
Binocularity is a key property of primary visual cortex (V1) neurons that is widely used to study sy...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...
Monocular deprivation (MD) is a well-known paradigm of experience-dependent plasticity in which cort...
SummaryBackgroundTo ensure that neuronal networks function in a stable fashion, neurons receive bala...
Proper functioning of the visual system depends on maturation of both excitatory and inhibitory syna...
Experience-dependent plasticity in the mature visual system is widely considered to be cortical. Usi...
Background To ensure that neuronal networks function in a stable fashion, neurons receive balanced i...
Background:It is generally assumed that visual cortical cells homogeneously shift their ocular domin...
It is generally assumed that visual cortical cells homogeneously shift their ocular dominance (OD) i...
Monocular deprivation (MD) during development shifts the ocular preference of primary visual cortex ...
Monocular deprivation (MD) during development leads to a dramatic loss of responsiveness through the...
Monocular visual deprivation (MD) produces profound changes in the ocular dominance (OD) of neurons ...
Early sensory experience instructs the maturation of neural circuitry in the cortex. This has been s...
<p>Understanding plasticity and learning has been a fundamental question of neuroscience for decades...
Binocularity is a key property of primary visual cortex (V1) neurons that is widely used to study sy...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...
Monocular deprivation (MD) is a well-known paradigm of experience-dependent plasticity in which cort...
SummaryBackgroundTo ensure that neuronal networks function in a stable fashion, neurons receive bala...
Proper functioning of the visual system depends on maturation of both excitatory and inhibitory syna...
Experience-dependent plasticity in the mature visual system is widely considered to be cortical. Usi...
Background To ensure that neuronal networks function in a stable fashion, neurons receive balanced i...