Our initial observation that GTP could, under some experimental conditions, have profound effects on Ca2+ movements across endoplasmic reticulum membranes arose from attempts to increase the sensitivity of rat liver microsomes to inositol 1,4,5 trisphosphate (IP3). Most preparations of microsomal fractions from rat liver release only a very small percentage of accumulated Ca2+ on addition of IP3. We found, rather empirically, that the addition of microM concentrations of GTP greatly enhanced the amount of Ca2+ releasable by IP3. The initial, very appealing, hypothesis was to postulate a direct effect of GTP on the IP3-sensitive Ca2+ channel. This idea is no longer tenable, as will be described below. The more likely explanation, that GTP has its effect by either fusing small microsomal vesicles together or by allowing some form of communication between adjacent membranes is considerably more complex mechanistically and also possibly has far reaching implications for the mechanisms by which cells organise and maintain their reticular structures.