Abstract
An electrically active event that has been observed in native rod outer segment disk membranes can be reconstituted into membrane vesicles containing purified rhodopsin and defined phospholipids. The magnitude of this charge-transfer event, as estimated using spin-labeled derivatives of hydrophobic ions, is a function of the phospholipid composition. In reconstituted membranes containing rhodopsin and egg phosphatidylcholine, the charge transferred during this event is approximately 10% that measured in the native system. The addition of 20 mol% egg phosphatidylethanolamine, phosphatidic acid or brain phosphatidylserine returns the magnitude of the charge transfer to within 60 to 100% of the native activity. The response seen in the reconstituted membrane system is consistent with a previously proposed interfacial charge-transfer mechanism.
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