Abstract

Phytochromes are photoreceptor proteins with a bilin chromophore that undergo photoconversion between two spectrally different forms, Pr and Pfr. Three domains, termed PAS, GAF, and PHY domains, constitute the N-terminal photosensory chromophore module (PCM); the C-terminus is often a histidine kinase module. In the Agrobacterium fabrum phytochrome Agp1, the autophosphorylation activity of the histidine kinase is high in the Pr and low in the Pfr form. Crystal structure analyses of PCMs suggest flexibility around position 308 in the Pr but not in the Pfr form. Here, we performed time-resolved fluorescence anisotropy measurements with different Agp1 mutants, each with a single cysteine residue at various positions. The fluorophore label Atto-488 was attached to each mutant, and time-resolved fluorescence anisotropy was measured in the Pr and Pfr forms. Fluorescence anisotropy curves were fitted with biexponential functions. Differences in the amplitude A2 of the second component between the PCM and the full-length variant indicate a mechanical coupling between position 362 and the histidine kinase. Pr-to-Pfr photoconversion induced no significant changes in the time constant t2 at any position. An intermediate t2 value at position 295, which is located in a compact environment, suggests flexibility around the nearby position 308 in Pr and in Pfr.

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