Bauer P J, Bamberg E, Fahr A
Biophys J. 1984 Jul;46(1):111-6. doi: 10.1016/S0006-3495(84)84003-5.
Purified bovine rod outer segment disk membranes were attached to a lecithin bilayer membrane. After photoexcitation with a 500-nm flash delivered by a dye laser, a negative photovoltage was observed on the bilayer under normal ionic strengths (100 mM KCl), which had a rise phase of 1-3 ms at 20 degrees C. The photoresponse was obviously due to bleaching of rhodopsin as it decreased for successive flashes of light. It originated most probably during the metarhodopsin-I metarhodopsin-II (meta-I-II) transition of rhodopsin because it was pH dependent at 2 degrees C but not at 20 degrees C. At 10 mM KCl, i.e., under hypotonic conditions, a positive photovoltage with slower kinetics than at high salt was observed. As the disk membranes were merely attached to the bilayer membrane, the photovoltage was apparently due to a light-induced transmembrane potential change in the disk membranes. Possible electrogenic mechanisms underlying the photosignal will be discussed.
纯化的牛视杆细胞外段盘膜附着于卵磷脂双分子层膜上。用染料激光发出的500纳米闪光进行光激发后,在正常离子强度(100 mM KCl)下,双分子层上观察到负光电压,在20摄氏度时其上升阶段为1 - 3毫秒。光响应显然是由于视紫红质的漂白,因为连续闪光时它会降低。它很可能起源于视紫红质的变视紫红质 - I到变视紫红质 - II(meta - I - II)转变过程中,因为在2摄氏度时它依赖于pH值,而在20摄氏度时则不依赖。在10 mM KCl,即低渗条件下,观察到正光电压,其动力学比高盐条件下更慢。由于盘膜仅仅附着于双分子层膜上,光电压显然是由于盘膜中光诱导的跨膜电位变化。将讨论光信号潜在的电生机制。