The covalent attachment of the heme cofactor in c-type cytochromes is a surprisingly complex process, which in bacteria invol ves a number of different proteins. Among the latter, the ccmE gene product is known to perform a key role in the heme delivery pathway in Gram-negative bacteria. The solution structure of the soluble domain of apo-CcmE from Shewanella putrefaciens was determined through NMR spectroscopy on a 13C,15N-labeled sample. The structure is characterized by a compact core with large regions of β structure, while the N-terminal and C-terminal regions are essentially unstructured. The overall folding is similar to that of the so-called oligo-binding proteins (OB fold). Solvent-exposed aromatic residues, conserved in all CcmE homologues, have been found in the proximity of His 131, the putative heme-binding residue, that could have a role in the interaction with heme. No interaction between CcmE and heme, as well as between CcmE and holocytochrome c, could be detected in vitro by electronic spectroscopy or by NMR. The data available suggest that the heme transfer process is likely to involve a heterooligomeric protein complex and occur under a tight enzymatic control.

Solution structure and characterization of the heme chaperone CcmE / ARNESANO F; BANCI L; BARKER PD; I. BERTINI; ROSATO A; SU XC; VIEZZOLI MS. - In: BIOCHEMISTRY. - ISSN 0006-2960. - STAMPA. - 41:(2002), pp. 13587-13594. [10.1021/bi026362w]

Solution structure and characterization of the heme chaperone CcmE

BANCI, LUCIA;BERTINI, IVANO;ROSATO, ANTONIO;VIEZZOLI, MARIA SILVIA
2002

Abstract

The covalent attachment of the heme cofactor in c-type cytochromes is a surprisingly complex process, which in bacteria invol ves a number of different proteins. Among the latter, the ccmE gene product is known to perform a key role in the heme delivery pathway in Gram-negative bacteria. The solution structure of the soluble domain of apo-CcmE from Shewanella putrefaciens was determined through NMR spectroscopy on a 13C,15N-labeled sample. The structure is characterized by a compact core with large regions of β structure, while the N-terminal and C-terminal regions are essentially unstructured. The overall folding is similar to that of the so-called oligo-binding proteins (OB fold). Solvent-exposed aromatic residues, conserved in all CcmE homologues, have been found in the proximity of His 131, the putative heme-binding residue, that could have a role in the interaction with heme. No interaction between CcmE and heme, as well as between CcmE and holocytochrome c, could be detected in vitro by electronic spectroscopy or by NMR. The data available suggest that the heme transfer process is likely to involve a heterooligomeric protein complex and occur under a tight enzymatic control.
2002
41
13587
13594
ARNESANO F; BANCI L; BARKER PD; I. BERTINI; ROSATO A; SU XC; VIEZZOLI MS
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/203045
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