The epsilon subunit confers fast channel gating on multiple classes of acetylcholine receptors

P. Camacho; Y. Liu; G. Mandel; P. Brehm

doi:10.1523/jneurosci.13-02-00605.1993

The epsilon subunit confers fast channel gating on multiple classes of acetylcholine receptors

P. Camacho, Y. Liu, G. Mandel, P. Brehm

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

20 Scopus citations

Abstract

During vertebrate skeletal muscle development, multiple forms of long- open-time (slow-type) ACh receptor channels are replaced by at least two different types of short-open-time (fast-type) ACh receptors. Expression of ACh receptors in Xenopus oocytes indicates that the substitution of an ε subunit for a γ subunit may account for both types of fast-gated channel types in adult muscle. Unlike the various forms of the embryonic receptor, in which functional diversity is achieved through alterations in subunit composition, the two major fast-gated forms expressed in oocytes have identical subunit composition. These findings provide a structural basis for both types of short-open-time ACh receptor types found in adult muscle.

Original language	English (US)
Pages (from-to)	605-613
Number of pages	9
Journal	Journal of Neuroscience
Volume	13
Issue number	2
DOIs	https://doi.org/10.1523/jneurosci.13-02-00605.1993
State	Published - 1993
Externally published	Yes

Keywords

ACh
Xenopus
development
oocyte
patch clamp
receptor
subunit

ASJC Scopus subject areas

Neuroscience(all)

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10.1523/jneurosci.13-02-00605.1993

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abstract = "During vertebrate skeletal muscle development, multiple forms of long- open-time (slow-type) ACh receptor channels are replaced by at least two different types of short-open-time (fast-type) ACh receptors. Expression of ACh receptors in Xenopus oocytes indicates that the substitution of an ε subunit for a γ subunit may account for both types of fast-gated channel types in adult muscle. Unlike the various forms of the embryonic receptor, in which functional diversity is achieved through alterations in subunit composition, the two major fast-gated forms expressed in oocytes have identical subunit composition. These findings provide a structural basis for both types of short-open-time ACh receptor types found in adult muscle.",

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T1 - The epsilon subunit confers fast channel gating on multiple classes of acetylcholine receptors

AU - Camacho, P.

AU - Liu, Y.

AU - Mandel, G.

AU - Brehm, P.

PY - 1993

Y1 - 1993

N2 - During vertebrate skeletal muscle development, multiple forms of long- open-time (slow-type) ACh receptor channels are replaced by at least two different types of short-open-time (fast-type) ACh receptors. Expression of ACh receptors in Xenopus oocytes indicates that the substitution of an ε subunit for a γ subunit may account for both types of fast-gated channel types in adult muscle. Unlike the various forms of the embryonic receptor, in which functional diversity is achieved through alterations in subunit composition, the two major fast-gated forms expressed in oocytes have identical subunit composition. These findings provide a structural basis for both types of short-open-time ACh receptor types found in adult muscle.

AB - During vertebrate skeletal muscle development, multiple forms of long- open-time (slow-type) ACh receptor channels are replaced by at least two different types of short-open-time (fast-type) ACh receptors. Expression of ACh receptors in Xenopus oocytes indicates that the substitution of an ε subunit for a γ subunit may account for both types of fast-gated channel types in adult muscle. Unlike the various forms of the embryonic receptor, in which functional diversity is achieved through alterations in subunit composition, the two major fast-gated forms expressed in oocytes have identical subunit composition. These findings provide a structural basis for both types of short-open-time ACh receptor types found in adult muscle.

KW - ACh

KW - Xenopus

KW - development

KW - oocyte

KW - patch clamp

KW - receptor

KW - subunit

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JO - Journal of Neuroscience

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ER -

The epsilon subunit confers fast channel gating on multiple classes of acetylcholine receptors

Abstract

Keywords

ASJC Scopus subject areas

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