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PHOTOSENSORY BEHAVIOR OF A BACTERIORHODOPSIN‐DEFICIENT MUTANT, ET‐15, OF Halobacterium halobium
Author(s) -
Hildebrand Eilo,
Schimz Angelika
Publication year - 1983
Publication title -
photochemistry and photobiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.818
H-Index - 131
eISSN - 1751-1097
pISSN - 0031-8655
DOI - 10.1111/j.1751-1097.1983.tb04522.x
Subject(s) - bacteriorhodopsin , photosystem , action spectrum , halobacterium , pigment , halobacterium salinarum , biophysics , strain (injury) , photochemistry , chemistry , rhodopsin , retinal , biology , photosynthesis , photosystem ii , biochemistry , anatomy , organic chemistry , membrane
– Halobacterium halobium , strain ET‐15, which does not contain detectable amounts of bacteriorhodopsin (BR) shows behavioral responses to UV and yellow‐green light. Attractant stimuli. i.e. light‐increases in the yellow‐green range or light‐decreases in the UV, suppress the spontaneous reversals of the swimming direction for a certain time. Repellent stimuli, i.e. light‐decreases in the yellow‐green range or light‐increases in the UV, elicit an additional reversal response after a few seconds. Action spectra of both sensory photosystems, PS 370 and PS 565, were measured with attractant as well as with repellent stimuli. As in BR‐containing cells, maximal sensitivity was always found at 370 nm for the UV‐system and at 565 nm for the long‐wavelength system. Fluence‐response curves at 370 and 565 nm obtained with strain ET‐15 and with a BR‐containing strain show that the sensitivity of both photosystems is not reduced in the absence of BR. It is concluded that BR is required neither for PS 565 nor for PS 370. Instead retinal‐containing pigments different from BR have to be assumed to mediate photosensory behavior.