Bond-Mediated Electron Tunneling in Ruthenium-Modified High-Potential Iron−Sulfur Protein

Creators: Babini, Elena; Bertini, Ivano; Borsari, Marco; Capozzi, Francesco; Luchinat, Claudio; Zhang, Xiaoyu; Moura, Gustavo L. C.; Kurnikov, Igor V.; Beratan, David N.; Ponce, Adrian; Di Bilio, Angel J.; Winkler, Jay R.; Gray, Harry B.

Abstract

High-potential iron−sulfur proteins (HiPIPs) are found in photosynthetic purple nonsulfur bacteria. The three-dimensional structure of Chromatium vinosum HiPIP features two short segments of α-helix, three strands of antiparallel β-pleated sheet, and a small helix near the N-terminus. The cubane [Fe_4S_4] cluster is attached covalently to the polypeptide matrix through Fe−S^γ bonds to cysteines 43, 46, 63, and 77. The side chains of Tyr19, Phe48, Trp60, Phe66, Trp76, Trp80, and other nonpolar residues encapsulate the cluster in a hydrophobic cavity that is inaccessible to solvent. Tyr19, which contacts the [Fe_4S_4] core, has been suggested to play a particularly important structural role. In both oxidation states, the cysteinyl and core inorganic sulfur atoms are involved in H-bonding interactions with peptide NH protons.

Additional Information

© 2000 American Chemical Society. Received December 22, 1999. Publication Date (Web): April 22, 2000. We thank Brian Crane for helpful discussions. This research was supported by NIH (DK19038 to H.B.G.; GM48043 to D.N.B.), the Howard Hughes Medical Institute (summer undergraduate research fellowship to X.Z.), and CAPES-Brazil (graduate fellowship to G.L.C.M.).

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