Action Spectrum of Light Pulse-Induced Membrane Depolarization in Pulvinar Motor Cells of Phaseolus

In addition to circadian changes in the membrane potential andleaf movement, light applied to the pulvinus causes changesin both the membrane potential and the pulvinar movement inPhaseolus vulgaris L. Even after a short pulse of light, a transientdepolarization of the membrane occurs and leaf movement is observed.Decreases of turgor pressure of the motor cells are always precededby the depolarization. The direction of the leaf movement canbe explained by the decrease of turgor pressure in the motorcells on the irradiated side of the pulvinus. Using the OkazakiLarge Spectrograph at the National Institute for Basic Biology,we determined the action spectrum of the membrane depolarizationinduced by light pulses (30 s) in motor cells of Phaseolus.The pulvinus was left exposed to air during measurement of themembrane potential with microelectrodes. The action spectrumobtained was in the range of 300 to 730 nm. It had the highestpeak at 460 nm with lower peaks at 380 nm and 420 nm. Almostno sensitivity was observed at wavelengths shorter than 360nm and longer than 520 nm. Red and far-red light had no effecton the depolarization of the motor cell. The features of theaction spectrum are almost the same as those of the Blue-Typeresponse in plants. (Received January 9, 1997; Accepted February 14, 1997)