SummaryCortical function is regulated by a strikingly diverse array of local-circuit inhibitory neurons. We evaluated how optogenetically activating somatostatin- and parvalbumin-positive interneurons subtractively or divisively suppressed auditory cortical cells’ responses to tones. In both awake and anesthetized animals, we found that activating either family of interneurons produced mixtures of divisive and subtractive effects and that simultaneously recorded neurons were often suppressed in qualitatively different ways. A simple network model shows that threshold nonlinearities can interact with network activity to transform subtractive inhibition of neurons into divisive inhibition of networks, or vice versa. Varying threshold and the ...
Many cortical network models use recurrent coupling strong enough to require inhibition for stabiliz...
Lateral inhibition is a fundamental circuit operation that sharpens the tuning properties of cortica...
The spatiotemporal control of neuronal excitability is fundamental to the inhibitory process. We now...
Cortical function is regulated by a strikingly diverse array of local-circuit inhibitory neurons. We...
SummaryCortical function is regulated by a strikingly diverse array of local-circuit inhibitory neur...
Brain circuits process information through specialized neuronal subclasses interacting within a netw...
Inhibitory interneurons play an essential role in neural computations by utilizing a combination of ...
There seems little doubt that from the earliest evolutionary beginnings, inhibition has been a funda...
In the visual cortex, inhibitory neurons alter the computations performed by target cells via combin...
We are surrounded by a world, which makes sense, only because we make sense of it. At every instant ...
The brain is a network system in which excitatory and inhibitory neurons keep activity balanced in t...
Sensory cortices must flexibly adapt their operations to internal states and external requirements. ...
Brain circuits process information through specialized neuronal subclasses interacting within a netw...
The responses of neurons in sensory cortex depend on the summation of excitatory and inhibitory syna...
The spatiotemporal control of neuronal excitability is fundamental to the inhibitory process. We now...
Many cortical network models use recurrent coupling strong enough to require inhibition for stabiliz...
Lateral inhibition is a fundamental circuit operation that sharpens the tuning properties of cortica...
The spatiotemporal control of neuronal excitability is fundamental to the inhibitory process. We now...
Cortical function is regulated by a strikingly diverse array of local-circuit inhibitory neurons. We...
SummaryCortical function is regulated by a strikingly diverse array of local-circuit inhibitory neur...
Brain circuits process information through specialized neuronal subclasses interacting within a netw...
Inhibitory interneurons play an essential role in neural computations by utilizing a combination of ...
There seems little doubt that from the earliest evolutionary beginnings, inhibition has been a funda...
In the visual cortex, inhibitory neurons alter the computations performed by target cells via combin...
We are surrounded by a world, which makes sense, only because we make sense of it. At every instant ...
The brain is a network system in which excitatory and inhibitory neurons keep activity balanced in t...
Sensory cortices must flexibly adapt their operations to internal states and external requirements. ...
Brain circuits process information through specialized neuronal subclasses interacting within a netw...
The responses of neurons in sensory cortex depend on the summation of excitatory and inhibitory syna...
The spatiotemporal control of neuronal excitability is fundamental to the inhibitory process. We now...
Many cortical network models use recurrent coupling strong enough to require inhibition for stabiliz...
Lateral inhibition is a fundamental circuit operation that sharpens the tuning properties of cortica...
The spatiotemporal control of neuronal excitability is fundamental to the inhibitory process. We now...