Synchronous membrane potential fluctuations in neurons of the cat visual cortex

Ilan Lampl; Iva Reichova; David Ferster

doi:10.1016/S0896-6273(00)81096-X

Synchronous membrane potential fluctuations in neurons of the cat visual cortex

Ilan Lampl^*, Iva Reichova, David Ferster

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

331 Scopus citations

Abstract

We have recorded intracellularly from pairs of neurons less than 500 μm distant from one another in V1 of anesthetized cats. Cross-correlation of spontaneous fluctuations in membrane potential revealed significant correlations between the cells in each pair. This synchronization was not dependent on the occurrence of action potentials, indicating that it was not caused by mutual interconnections. The cells were synchronized continuously rather than for brief epochs. Much weaker correlations were found between the EEG and intracellular potentials, suggesting local, rather than global, synchrony. The highest correlation occurred among cells with similar connectivity from the LGN and similar receptive fields. During visual stimulation, correlations increased when both cells responded to the stimulus and decreased when neither cell responded.

Original language	English (US)
Pages (from-to)	361-374
Number of pages	14
Journal	Neuron
Volume	22
Issue number	2
DOIs	https://doi.org/10.1016/S0896-6273(00)81096-X
State	Published - Feb 1999
Externally published	Yes

Funding

We are grateful to Sooyoung Chung, Deda Gillespie, Matteo Carandini, and Nelson Spruston for comments on the manuscript. This work was supported by a grant EY04726 from the National Eye Institute.

ASJC Scopus subject areas

General Neuroscience

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10.1016/S0896-6273(00)81096-X

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abstract = "We have recorded intracellularly from pairs of neurons less than 500 μm distant from one another in V1 of anesthetized cats. Cross-correlation of spontaneous fluctuations in membrane potential revealed significant correlations between the cells in each pair. This synchronization was not dependent on the occurrence of action potentials, indicating that it was not caused by mutual interconnections. The cells were synchronized continuously rather than for brief epochs. Much weaker correlations were found between the EEG and intracellular potentials, suggesting local, rather than global, synchrony. The highest correlation occurred among cells with similar connectivity from the LGN and similar receptive fields. During visual stimulation, correlations increased when both cells responded to the stimulus and decreased when neither cell responded.",

author = "Ilan Lampl and Iva Reichova and David Ferster",

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AU - Lampl, Ilan

AU - Reichova, Iva

AU - Ferster, David

N1 - Funding Information: We are grateful to Sooyoung Chung, Deda Gillespie, Matteo Carandini, and Nelson Spruston for comments on the manuscript. This work was supported by a grant EY04726 from the National Eye Institute.

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N2 - We have recorded intracellularly from pairs of neurons less than 500 μm distant from one another in V1 of anesthetized cats. Cross-correlation of spontaneous fluctuations in membrane potential revealed significant correlations between the cells in each pair. This synchronization was not dependent on the occurrence of action potentials, indicating that it was not caused by mutual interconnections. The cells were synchronized continuously rather than for brief epochs. Much weaker correlations were found between the EEG and intracellular potentials, suggesting local, rather than global, synchrony. The highest correlation occurred among cells with similar connectivity from the LGN and similar receptive fields. During visual stimulation, correlations increased when both cells responded to the stimulus and decreased when neither cell responded.

AB - We have recorded intracellularly from pairs of neurons less than 500 μm distant from one another in V1 of anesthetized cats. Cross-correlation of spontaneous fluctuations in membrane potential revealed significant correlations between the cells in each pair. This synchronization was not dependent on the occurrence of action potentials, indicating that it was not caused by mutual interconnections. The cells were synchronized continuously rather than for brief epochs. Much weaker correlations were found between the EEG and intracellular potentials, suggesting local, rather than global, synchrony. The highest correlation occurred among cells with similar connectivity from the LGN and similar receptive fields. During visual stimulation, correlations increased when both cells responded to the stimulus and decreased when neither cell responded.

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Synchronous membrane potential fluctuations in neurons of the cat visual cortex

Abstract

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