Photomovement of the gliding cyanobacterium Synechocystis sp PCC 6803

Using a computerized videomicroscope motion analysis system, we investigated the photomovements of two Synechocystis sp, (PCC 6803 and ATCC 27184), Synechocystis sp, PCC 6803 displays a relatively slow gliding motion. The phototactic and photokinetic speeds of this cyanobacterium in liquid media were 5 mu m/min and 15.8 mu m/min, respectively, at 3 mu mol/m(2)/s of stimulant white light. Synechocystis sp, PCC 6803 senses light direction rather than intensity for phototaxis, Synechocystis sp, ATCC 27184 showed a weak photokinesis but no phototaxis, Analysis of Synechocystis sp, ATCC 27184 suggests that the loss of phototaxis results from spontaneous mutation during several years of subculture. When directional irradiation was applied, the cell population of Synechocystis sp, PCC 6803 began to deviate from random movement and reached maximum orientation at 5 min after the onset of stimulant white light. Synechocystis sp, PCC 6803 showed high sensitivity to the stimulant white light of fluence rates as low as 0.002 mu mol/m(2)/s. Neither 1,3-dichlorophenyldimethyl urea nor cyanide affected phototactic orientation, whereas cyanide inhibited gliding speed. This result suggests that the phototaxis of Synechocystis sp, PCC 6803 is independent of photosynthetic phosphorylation and that its gliding movement is primarily powered by oxidative phosphorylation, In the visible wavelength region, 560 nm, 660 nm and even 760 nm caused positive phototaxis, However, 360 nm light induced strikingly negative phototaxis, Therefore, at least two independent photoreceptors may exist to control phototaxis, The photoreceptor for positive phototaxis appears likely to be a phytochrome-like tetrapyrrole rather than chlorophyll a.