Mechanisms involved in presynaptic depolarization of group I and rubrospinal fibers in cat spinal cord.

P Rudomín; I Engberg; I Jiménez

Mechanisms involved in presynaptic depolarization of group I and rubrospinal fibers in cat spinal cord.

P Rudomín, I Engberg, I Jiménez

Journal of Neurophysiology Published 1 September 1981 Vol. 46 no. 3, 532-548 DOI:

P Rudomín

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I Engberg

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I Jiménez

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Cover: Presence of sodium voltage-gated channel isoform 1.6 (NaV1.6) at the heminode and sensory terminals of a Ia afferent branch supplying innervation to a cat muscle spindle stained with antibodies targeting neurofilament H (green) and NaV1.6 (red). In the lower left corner are action potentials and instantaneous firing rates evoked by ramp-hold-release stretches recorded from a cat Ia afferent. From Carrasco DI, Vincent JA, Cope TC. Distribution of TTX-sensitive voltage-gated sodium channels in primary sensory endings of mammalian muscle spindles. J Neurophysiol 117: 1690–1701, 2017; doi:10.1152/jn.00889.2016.

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Mechanisms involved in presynaptic depolarization of group I and rubrospinal fibers in cat spinal cord.

P Rudomín, I Engberg, I Jiménez

Journal of Neurophysiology Sep 1981, 46 (3) 532-548;

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Mechanisms involved in presynaptic depolarization of group I and rubrospinal fibers in cat spinal cord.

P Rudomín, I Engberg, I Jiménez

Journal of Neurophysiology Sep 1981, 46 (3) 532-548;

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Mechanisms involved in presynaptic depolarization of group I and rubrospinal fibers in cat spinal cord.

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