Acetylcholine receptor-controlled ion flux in electroplax membrane vesicles: A minimal mechanism based on rate measurements in the millisecond to minute time region

The dependence of acetylcholine receptor-controlled transmembrane ion flux on carbamylcholine concentration was measured in the msec time region, using membrane vesicles and a quench flow technique. 4 Measurements were made: (1) transmembrane ion influx, (2) rate of inactivation of the receptor by carbamylcholine, (3) rate of recovery, and (4) ion influx mediated by “inactivated” receptor. The minimal model, based on the measurements, accounts for the time dependence of receptor-controlled ion flux over a 200-fold carbamylcholine concentration range. The maximum flux rate of 84 sec^?1 indicates that we have succeeded in measuring the receptor-controlled processes which give rise to electrical signals in cells.