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Literature DB >> 26996084

Gamma and Beta Bursts Underlie Working Memory.

Mikael Lundqvist¹, Jonas Rose^1,2, Pawel Herman³, Scott L Brincat¹, Timothy J Buschman^1,4, Earl K Miller¹.

Abstract

Working memory is thought to result from sustained neuron spiking. However, computational models suggest complex dynamics with discrete oscillatory bursts. We analyzed local field potential (LFP) and spiking from the prefrontal cortex (PFC) of monkeys performing a working memory task. There were brief bursts of narrow-band gamma oscillations (45-100 Hz), varied in time and frequency, accompanying encoding and re-activation of sensory information. They appeared at a minority of recording sites associated with spiking reflecting the to-be-remembered items. Beta oscillations (20-35 Hz) also occurred in brief, variable bursts but reflected a default state interrupted by encoding and decoding. Only activity of neurons reflecting encoding/decoding correlated with changes in gamma burst rate. Thus, gamma bursts could gate access to, and prevent sensory interference with, working memory. This supports the hypothesis that working memory is manifested by discrete oscillatory dynamics and spiking, not sustained activity.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2016 PMID： 26996084 PMCID： PMC5220584 DOI： 10.1016/j.neuron.2016.02.028

Source DB: PubMed Journal: Neuron ISSN： 0896-6273 Impact factor: 17.173

52 in total

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