Chloramine-T alters the nerve membrane birefringence response |
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Authors: | David Landowne |
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Institution: | (1) Department of Physiology and Biophysics, University of Miami School of Medicine, 33101 Miami, Florida;(2) Marine Biological Laboratory, 02543 Woods Hole, Massachusetts |
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Abstract: | Summary The change in birefringence during depolarizing voltage-clamp pulses of internally perfused squid giant axons are biphasic. There is a rapid decrease in birefringence with a 220-sec half time at 8°C followed by a slow decrease over the next several milliseconds. After the pulse there is a rapid recovery which is smaller than the initial rapid decrease followed by a slow recovery phase. The rate of change of the slow phase during the pulse is more rapid for larger depolarizations. After the pulse the rate of change is more rapid for more negative potentials.3.6mm chloramine-T, applied externally until the sodium currents were prolonged and inactivation was removed, removed the slow phase of the birefringence response both during and after the pulse and made the fast off response as large as the fast on response. Two anesthetics reduced the birefringence response by about 20%.A rocking helix model is presented which relates the birefringence findings and earlier gating current experiments. |
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Keywords: | optical retardation nerve impulse action potential sodium channel excitability squid giant axon chloroform N-methyl-strychnine |
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