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Laminar-specific cortical dynamics in human visual and sensorimotor cortices

bioRxiv

Nov 28, 2017

James J BonaiutoSven Bestmann

Abstract

Lower frequency, feedback, activity in the alpha and beta range is thought to predominantly originate from infragranular cortical layers, whereas feedforward signals in the gamma range stem largely from supragranular layers. Distinct anatomical and spectral channels may therefore play s...read more

Mentioned in this Paper

Vision
Magnetoencephalography
Lamiinae (invertebrate)
Participant
Ion Channel
Structure of Cortex of Kidney
Glutamate 5-kinase Activity
Cellular Component Organization
Depth
Cerebral Cortex
107
1
47
Paper Details
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Laminar-specific cortical dynamics in human visual and sensorimotor cortices

bioRxiv

Nov 28, 2017

James J BonaiutoSven Bestmann

PMID: 990226274

DOI: 10.1101/226274

Abstract

Lower frequency, feedback, activity in the alpha and beta range is thought to predominantly originate from infragranular cortical layers, whereas feedforward signals in the gamma range stem largely from supragranular layers. Distinct anatomical and spectral channels may therefore play s...read more

Mentioned in this Paper

Vision
Magnetoencephalography
Lamiinae (invertebrate)
Participant
Ion Channel
Structure of Cortex of Kidney
Glutamate 5-kinase Activity
Cellular Component Organization
Depth
Cerebral Cortex
107
1
47

Similar Papers Found In These Feeds

Organellar TRP channels

Orangellar TRP channels are transient receptor potential (TRP) channels mediate Ca2+ flux and voltage changes across membranes in response to environmental and cellular signals. Discover the latest research on organellar TRP channels here.

BioRxiv Preprints

BioRxiv is the preprint server for biology, operated by Cold Spring Harbor Laboratory. Here are the latest biology preprint articles from bioRxiv.

Related Papers

ELife

Lamina-specific cortical dynamics in human visual and sensorimotor cortices

ELifeOctober 23, 2018
James J BonaiutoSven Bestmann
NeuroImage

Cortical layers, rhythms and BOLD signals

NeuroImageNovember 8, 2017
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Paper Details
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  • finger pointing at paper

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