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Biophysical Journal 48: 241-246 (1985)
© 1985 the Biophysical Society
ABSTRACT
The photochemical properties of the azobenzene derivative, Bis-Q, were exploited to carry out an agonist concentration jump followed by a molecular rearrangement of bound agonist molecules at acetylcholine (ACh) receptor channels of voltage-clamped rat myoballs. Myoballs were bathed in solutions containing low concentrations of cis-Bis-Q, the inactive isomer. Whole-cell current relaxations were studied following a light flash that produced a concentration jump of agonist, trans-Bis-Q, followed by a second flash that produced net trans----cis photoisomerizations of Bis-Q molecules. The concentration-jump relaxation provided a measure of the mean burst duration for ACh receptor channels occupied by trans-Bis-Q (7.7 ms, 22 degrees C). The second current relaxation was a more rapid conductance decrease (phase 1, tau = 0.8 ms). Phase 1 may represent either the burst duration for receptors initially occupied by a single cis- and a single trans-Bis-Q molecule or that for unliganded receptors. Single-channel current recordings from excised outside-out membrane patches showed that single channels open following an agonist concentration jump comparable to that used in the whole-cell experiments; when many such records were averaged, a synthetic macroscopic relaxation was produced. Individual open channels closed faster following a flash that promoted trans----cis photoisomerizations of the bound ligand, thus confirming the whole-cell observations of phase 1.
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