The high-resolution X-ray crystallographic structure of the ferritin (EcFtnA) of Escherichia coli; comparison with human H ferritin (HuHF) and the structures of the Fe3+ and Zn2+ derivatives11Edited by R. Huber

Autor:	Timothy J. Stillman, John R. Guest, Peter J. Artymiuk, Pauline M. Harrison, Amyra Treffry, Simon C. Andrews, P.D. Hempstead, A. J. Hudson
Rok vydání:	2001
Předmět:	chemistry.chemical_classification Denticity biology Stereochemistry Ligand Metal ions in aqueous solution Crystal structure Amino acid Ferritin Metal Crystallography chemistry Structural Biology visual_art biology.protein visual_art.visual_art_medium Molecular Biology Peptide sequence
Zdroj:	Journal of Molecular Biology. 307:587-603
ISSN:	0022-2836
DOI:	10.1006/jmbi.2001.4475
Popis:	The high-resolution structure of the non-haem ferritin from Escherichia coli (EcFtnA) is presented together with those of its Fe3+ and Zn2+ derivatives, this being the first high-resolution X-ray analysis of the iron centres in any ferritin. The binding of both metals is accompanied by small changes in the amino acid ligand positions. Mean FeA3+-FeB3+ and ZnA2+-ZnB2+ distances are 3.24 A and 3.43 A, respectively. In both derivatives, metal ions at sites A and B are bridged by a glutamate side-chain (Glu50) in a syn-syn conformation. The Fe3+ derivative alone shows a third metal site (FeC3+) joined to FeB3+ by a long anti-anti bidentate bridge through Glu130 (mean FeB3+-FeC3+ distance 5.79 A). The third metal site is unique to the non-haem bacterial ferritins. The dinuclear site lies at the inner end of a hydrophobic channel connecting it to the outside surface of the protein shell, which may provide access for dioxygen and possibly for metal ions shielded by water. Models representing the possible binding mode of dioxygen to the dinuclear Fe3+ pair suggest that a gauche μ-1,2 mode may be preferred stereochemically. Like those of other ferritins, the 24 subunits of EcFtnA are folded as four-helix bundles that assemble into hollow shells and both metals bind at dinuclear centres in the middle of the bundles. The structural similarity of EcFtnA to the human H chain ferritin (HuHF) is remarkable (r.m.s. deviation of main-chain atoms 0.66 A) given the low amino acid sequence identity (22 %). Many of the conserved residues are clustered at the dinuclear centre but there is very little conservation of residues making inter-subunit interactions.
Databáze:	OpenAIRE
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