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Literature DB >> 31732258

A Distinct Class of Bursting Neurons with Strong Gamma Synchronization and Stimulus Selectivity in Monkey V1.

Irene Onorato¹, Sergio Neuenschwander², Jennifer Hoy³, Bruss Lima⁴, Katia-Simone Rocha⁵, Ana Clara Broggini⁶, Cem Uran⁶, Georgios Spyropoulos¹, Johanna Klon-Lipok⁷, Thilo Womelsdorf⁸, Pascal Fries⁶, Cristopher Niell³, Wolf Singer⁹, Martin Vinck¹⁰.

Abstract

Cortical computation depends on interactions between excitatory and inhibitory neurons. The contributions of distinct neuron types to sensory processing and network synchronization in primate visual cortex remain largely undetermined. We show that in awake monkey V1, there exists a distinct cell type (››30% of neurons) that has narrow-waveform (NW) action potentials and high spontaneous discharge rates and fires in high-frequency bursts. These neurons are more stimulus selective and phase locked to 30- to 80-Hz gamma oscillations than other neuron types. Unlike other neuron types, their gamma-phase locking is highly predictive of orientation tuning. We find evidence for strong rhythmic inhibition in these neurons, suggesting that they interact with interneurons to act as excitatory pacemakers for the V1 gamma rhythm. We did not find a similar class of NW bursting neurons in L2-L4 of mouse V1. Given its properties, this class of NW bursting neurons should be pivotal for the encoding and transmission of stimulus information.

Entities: Species

Keywords: V1; bursting; cell class; cell type; excitatory; gamma; interneuron; orientation tuning; oscillation; synchronization

Mesh：

Year: 2019 PMID： 31732258 DOI： 10.1016/j.neuron.2019.09.039

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

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Cited

10 in total

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6. Predictive coding of natural images by V1 firing rates and rhythmic synchronization.

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7. Spontaneous variability in gamma dynamics described by a damped harmonic oscillator driven by noise.

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