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Hyperpolarization slowly activates a potassium current in locust skeletal muscle

✍ Scribed by K. E. Zittlau; C. Walther

Book ID: 104744934
Publisher: Springer
Year: 1991
Tongue: English
Weight: 365 KB
Volume: 418
Category: Article
ISSN: 0031-6768
DOI: 10.1007/bf00370470

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✦ Synopsis

An inward current activated by hyperpolarization, IK,H, was studied under voltage clamp in locust skeletal muscle. The dependence of its reversal potential on [K+]o and its insensitivity to changes in [Na+]o indicate that the underlying conductance is a K+ conductance. The instantaneous current-voltage (I-V)-relationship exhibits outward rectification. Activation and deactivation take seconds and have complex time courses. At 10 mM [K+]o activation seems to start at a voltage greater than or equal to 20 mV more positive than the resting potential (approximately -68 mV). Ba++ blocks IK,H strongly; so do Rb+ and Cs+, the latter in a voltage dependent manner. The slow inward current bears similarities to anomalous rectifiers as well as to mixed, hyperpolarization-activated K+/Na+ currents in other tissues.

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