Silver ions elicit dose-dependently a transient contracture in single fibres of bull-frog toe muscle placed in 0-Ca2+, Cl- -free MOPS solution containing 3 mM Mg2+ and NO3-. To elucidate the mechanisms involved, changes in membrane potential and in tension development were continuously measured following exposure to Ag+. The effect of Ag+ on contraction in fibres in which the membrane had been depolarized by elevating the external K+ concentration was also examined. The major findings of this investigation are as follows. (1) The mechanical threshold was shifted towards more negative potentials by 5 mV (-51 to -56 mV), when Ca2+ and Cl- in the Ringer's solution were replaced with Mg2+ and NO3-, respectively. (2) On the exposure of the fibres to 5 microM Ag+, the membrane potential decreased by 1.6 mV from -87.8 mV and tension was developed. (3) In fibres soaked in a solution containing 10 mM K+ (corresponding to a membrane potential of -69.5 mV), 5 microM Ag+ produced a large contracture similar to that seen in the control solution. (4) The Ag+-induced contracture was inactivated when more than 20 mM K+ was used. (5) The membrane depolarization evoked by either 20 or 50 microM Hg2+ did not produce contraction. (6) Muscle fibres which had been exposed to 20 microM Hg2+ for 5 min responded to 5 microM Ag+ by a transient tension development. These findings strongly suggest that Ag+-induced tension development is not associated with depolarization of the surface membrane but rather is caused by specific actions of Ag+ on membrane proteins in the T-tubules.