Differential modulation of parietal cortex activity by respiration and θ oscillations
Felix Jung, Victoria Witte, Yevgenij Yanovsky, Matthias Klumpp, Jurij Brankačk, Adriano B. L. Tort, Andreas Draguhn
Abstract
Nasal respiration generates a rhythmic signal that entrains large portions of the mammalian brain into respiration-coupled field potentials. Here, we report the simultaneous presence of respiratory rhythm (RR) and θ oscillations in the parietal association cortex of mice. Despite their overlapping frequencies, both rhythms differ in their state-dependent power and differentially entrain the discharge behavior of units. We conclude that network activity in the parietal cortex is synchronized by two different physiological oscillation patterns.
Topics & Concepts
NeuroscienceLocal field potentialPosterior parietal cortexRhythmPremovement neuronal activityCortex (anatomy)Inhibitory postsynaptic potentialElectrophysiologyRespirationCerebral cortexBiologyPhysicsAnatomyAcousticsNeural dynamics and brain functionPhotoreceptor and optogenetics researchNeuroscience and Neuropharmacology Research