Processing of sensory information depends on the interactions between hierarchically connected neocortical regions, but it remains unclear how the activity in one area causally influences the activity dynamics in another and how rapidly such interactions change with time. Here, we show that the communication between the primary visual cortex (V1) and high-order visual area LM is context-dependent and surprisingly dynamic over time. By momentarily silencing one area while recording activity in the other, we find that both areas reliably affected changing subpopulations of target neurons within one hundred milliseconds while mice observed a visual stimulus. The influence of LM feedback on V1 responses became even more dynamic when the visual ...
Neural activity fluctuates endogenously on timescales varying across the neocortex. The variation in...
Neurons process information on different timescales across the neocortex that are related to the dyn...
A fundamental property of brain function is that the spiking activity of cortical neurons is variabl...
Distributed regions in the brain continuously interact - forming dynamic pathways of information flo...
SummaryAnimals can flexibly change their behavior in response to a particular sensory stimulus; the ...
Intrinsic timescales characterize dynamics of endogenous fluctuations in neural activity. Variation ...
Brains are composed of anatomically and functionally distinct regions performing specialized tasks, ...
SummaryWe developed a large-scale dynamical model of the macaque neocortex, which is based on recent...
SummaryRelaying neural signals between cortical areas is central to cognition and sensory processing...
Selective attention modulates activity within individual visual areas; however, the role of attentio...
Here, we theoretically study how cortical networks’ synaptic connectivity shapes their spiking activ...
The highly interconnected local and large-scale networks of the neocortical sheet rapidly and dynami...
Within the primate visual system, areas at lower levels of the cortical hierarchy process basic visu...
The strongest connections to V1 are fed back from neighbouring area V2 and from a network of higher ...
SummaryPrefrontal cortex has been proposed to show highly adaptive information coding, with neurons ...
Neural activity fluctuates endogenously on timescales varying across the neocortex. The variation in...
Neurons process information on different timescales across the neocortex that are related to the dyn...
A fundamental property of brain function is that the spiking activity of cortical neurons is variabl...
Distributed regions in the brain continuously interact - forming dynamic pathways of information flo...
SummaryAnimals can flexibly change their behavior in response to a particular sensory stimulus; the ...
Intrinsic timescales characterize dynamics of endogenous fluctuations in neural activity. Variation ...
Brains are composed of anatomically and functionally distinct regions performing specialized tasks, ...
SummaryWe developed a large-scale dynamical model of the macaque neocortex, which is based on recent...
SummaryRelaying neural signals between cortical areas is central to cognition and sensory processing...
Selective attention modulates activity within individual visual areas; however, the role of attentio...
Here, we theoretically study how cortical networks’ synaptic connectivity shapes their spiking activ...
The highly interconnected local and large-scale networks of the neocortical sheet rapidly and dynami...
Within the primate visual system, areas at lower levels of the cortical hierarchy process basic visu...
The strongest connections to V1 are fed back from neighbouring area V2 and from a network of higher ...
SummaryPrefrontal cortex has been proposed to show highly adaptive information coding, with neurons ...
Neural activity fluctuates endogenously on timescales varying across the neocortex. The variation in...
Neurons process information on different timescales across the neocortex that are related to the dyn...
A fundamental property of brain function is that the spiking activity of cortical neurons is variabl...