Crystallographic structure of a photoreceptor protein at 2.4 A resolution.

AUTOR(ES)

McRee, D E

RESUMO

The first essential step in protein photoreception is the capture and storage of energy from a photon. We have recently identified and isolated, from the purple photoautotrophic bacterium, Ectothiorhodospira halophila, a 13,000-dalton photoactive yellow protein (PYP) that has a photocycle with kinetics similar to sensory rhodopsin and a very high quantum efficiency. To study the structural chemistry of protein photoreception, we determined, refined, and analyzed the crystallographic structure of PYP at 2.4 A resolution and report here that it is composed of two perpendicular antiparallel beta-sheets that enclose the chromophore. Each of the 10 beta-strands of PYP is connected directly to its nearest neighbor with +1 topology. Globally, an asymmetric distribution of side chains places aromatic and acidic side chains in an ellipsoidal band around the chromophore with a cluster of basic side chains on one side. Locally, the electron density maps place an internal lysine and the chromophore in an apparent Schiff base linkage stabilized by a buried glutamate and a tyrosine side chain. To our knowledge, the atomic resolution structure of a protein with a reversible photoisomerization has not been reported previously. Furthermore, PYP may also represent a class of proteins that bind conjugated molecules and interact with a secondary receptor system.

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