Nonbleachable rhodopsins containing retinal moieties with fixed 11-ene structures have been prepared. When the nonbleachable rhodopsin analogue corresponding to the natural pigment was flash-photolysed at 20.8 degrees C, no absorption changes occurred at the monitoring wavelengths of 380, 480, and 580 nm for the time range of 2 microseconds--10 s. This observation is in contrast to that of natural rhodopsin which showed the formation of metarhodopsin I and its decay to meta II. Irradiation of the artificial rhodopsin, 77 K, with light of 460 and 540 nm, also gave no spectral changes; in the case of natural rhodopsin, however, the irradiation leads to formation of the red-shifted intermediate bathorhodopsin. The absence of photochemistry in the artificial pigment shows that an 11-cis to trans photoisomerization of the retinal moiety is a crucial step in inducing the chain of events in te photolysis of rhodopsin.