Mechanism of photosensory adaptation in Halobacterium salinarium.

Phototaxis in Halobacterium salinarium is the result of an interplay of sensory rhodopsin excitation and adaptation to the stimulus background. Adaptation to orange light, received by sensory rhodopsin I was probed by measuring the behavioral response of cells to a step-like decrease in intensity. Cells were able to adapt to an intensity range of more than four orders of magnitude. The data were analysed on the basis of theoretical fluence rate response relationships calculated from the photocycle kinetics of the complex of sensory rhodopsin I with its transducer HtrI. Independent of the stimulus background, the cellular response was shown to be a function of the absolute number of photoreceptor complex molecules turned over by the light stimulus. Receptor deactivation was identified as the underlying mechanism of adaptation and was sufficient to account for the experimental results. We suggest that reversible methylation of the transducer protein HtrI provides the chemical mechanism of sensory adaptation in H. salinarium and also explains the different sensitivity of the cells to orange and UV light.