SummaryThe mammalian neocortex is a highly interconnected network of different types of neurons organized into both layers and columns. Overlaid on this structural organization is a pattern of functional connectivity that can be rapidly and flexibly altered during behavior. Parvalbumin-positive (PV+) inhibitory neurons, which are implicated in cortical oscillations and can change neuronal selectivity, may play a pivotal role in these dynamic changes. We found that optogenetic activation of PV+ neurons in the auditory cortex enhanced feedforward functional connectivity in the putative thalamorecipient circuit and in cortical columnar circuits. In contrast, stimulation of PV+ neurons induced no change in connectivity between sites in the same...
Parvalbumin-positive neurons are the largest class of GABAergic, inhibitory neurons in the central n...
Anatomical and physiological experiments have outlined a blueprint for the feedforward flow of activ...
Contrast gain control is the systematic adjustment of neuronal gain in response to the contrast of s...
SummaryThe mammalian neocortex is a highly interconnected network of different types of neurons orga...
The mammalian sensory cortex is composed of multiple types of inhibitory and excitatory neurons, whi...
While sensory environments can vary dramatically in their statistics, neurons have a limited dynamic...
Sensory cortices must flexibly adapt their operations to internal states and external requirements. ...
The extensive feedback from the auditory cortex (AC) to the inferior colliculus (IC) supports critic...
Reward associations during auditory learning induce cortical plasticity in the primary auditory cort...
Inhibitory interneurons are thought to play a crucial role in several features of neocortical proces...
Lateral inhibition is a fundamental circuit operation that sharpens the tuning properties of cortica...
Connectivity determines the function of neural circuits and it is the gateway to behavioral output. ...
SummaryLoss of a sensory modality can lead to functional enhancement of the remaining senses. For ex...
Cortical inhibitory circuits play important roles in shaping sensory processing. In auditory cortex,...
Summary: Neuronal stimulus selectivity is shaped by feedforward and recurrent excitatory-inhibitory ...
Parvalbumin-positive neurons are the largest class of GABAergic, inhibitory neurons in the central n...
Anatomical and physiological experiments have outlined a blueprint for the feedforward flow of activ...
Contrast gain control is the systematic adjustment of neuronal gain in response to the contrast of s...
SummaryThe mammalian neocortex is a highly interconnected network of different types of neurons orga...
The mammalian sensory cortex is composed of multiple types of inhibitory and excitatory neurons, whi...
While sensory environments can vary dramatically in their statistics, neurons have a limited dynamic...
Sensory cortices must flexibly adapt their operations to internal states and external requirements. ...
The extensive feedback from the auditory cortex (AC) to the inferior colliculus (IC) supports critic...
Reward associations during auditory learning induce cortical plasticity in the primary auditory cort...
Inhibitory interneurons are thought to play a crucial role in several features of neocortical proces...
Lateral inhibition is a fundamental circuit operation that sharpens the tuning properties of cortica...
Connectivity determines the function of neural circuits and it is the gateway to behavioral output. ...
SummaryLoss of a sensory modality can lead to functional enhancement of the remaining senses. For ex...
Cortical inhibitory circuits play important roles in shaping sensory processing. In auditory cortex,...
Summary: Neuronal stimulus selectivity is shaped by feedforward and recurrent excitatory-inhibitory ...
Parvalbumin-positive neurons are the largest class of GABAergic, inhibitory neurons in the central n...
Anatomical and physiological experiments have outlined a blueprint for the feedforward flow of activ...
Contrast gain control is the systematic adjustment of neuronal gain in response to the contrast of s...