Stretch Activation of a K+ Channel in Molluscan Heart Cells
TLDR
It is concluded that the stretch-sensitive kinetic component of theHeart ventricle cells of Lymnaea stagnalis contain a stretch-activated K + channel which exhibits two open states and three closed states.Abstract:
Heart ventricle cells of Lymnaea stagnalis contain a stretch-activated K + channel which exhibits two open states and three closed states. Over the range 0 to −25 mmHg (1 mmHg = 133.3 Pa), the probability that the channel is open is a steeply non-linear function of negative pressure. Pressure-dependent decreases in the mean times of the longest component of the closed-time distribution are observed in the same range and (because other mean times show no consistent or sufficiently large changes with pressure) are assumed to account for increases in the probability of being open. Channel activity characteristically occurs as bursts with a mean time of 3.6 ms. These bursts contain, on average, 1.7 closings; 78 % of the burst time is spent in the open state. It is concluded that the stretch-sensitive kinetic component is an interburst closed state. Note: To whom reprint requests should be sent.read more
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F. Guharay,Frederick Sachs +1 more
TL;DR: The membrane of tissue‐cultured chick pectoral muscle contains an ionic channel which is activated by membrane stretch, and appears to gather force from a large area of membrane, probably by a cytochalasin‐resistant cytoskeletal network.
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