The photocycle of the chloride pump halorhodopsin. I: Azidecatalyzed deprotonation of the chromophore is a side reaction of photocycle intermediates inactivating the pump

Abstract

Halorhodopsin, the light‐driven chloride pump of halobacteria, undergoes a photochemical cycle in the 10 ms range. Two intermediates, HR₆₄₀ and HR₅₂₀, accumulate in the photosteady state after short times (within 100 ms) of illumination. Upon prolonged illumination a third species, HR^L₄₁₀ accumulates, which is formed from HR₅₂₀/HR₆₄₀ by deprotonation of the chromophore in a side reaction of the photocycle. In the dark, HR^L₄₁₀ requires several minutes to reconvert thermally to HR₅₇₈. Thus, molecules in the HR^L₄₁₀ state must be inactive pumps since their maximal turnover number could only be a few per hour. Inorganic bases, such as azide, catalyze the deprotonation of HR₅₂₀/HR₆₄₀ as well as the reprotonation of HR^L₄₁₀. Both reactions are accelerated several hundred times by azide but the photosteady‐state concentration of HR^L₄₁₀ remains unchanged.