The Architecture of the Binding Site in Redox Protein Complexes: Implications for Fast Dissociation

Peter B. Crowley; Maria Arménia Carrondo

doi:10.1002/prot.20043

The Architecture of the Binding Site in Redox Protein Complexes: Implications for Fast Dissociation

Peter B. Crowley, Maria Arménia Carrondo

Universidade Nova de Lisboa

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

78 Citations (Scopus)

Abstract

Interprotein electron transfer is characterized by protein interactions on the millisecond time scale. Such transient encounters are ensured by extremely high rates of complex dissociation. Computational analysis of the available crystal structures of redox protein complexes reveals features of the binding site that favor fast dissociation. In particular, the complex interface is shown to have low geometric complementarity and poor packing. These features are consistent with the necessity for fast dissociation since the absence of close packing facilitates solvation of the interface and disruption of the complex.

Original language	English
Pages (from-to)	603-612
Number of pages	10
Journal	Proteins: Structure, Function and Bioinformatics
Volume	55
Issue number	3
DOIs	https://doi.org/10.1002/prot.20043
Publication status	Published - 15 May 2004
Externally published	Yes

Keywords

Atom packing
Crystal structure
Electron transfer
Protein interactions
Recognition

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10.1002/prot.20043

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abstract = "Interprotein electron transfer is characterized by protein interactions on the millisecond time scale. Such transient encounters are ensured by extremely high rates of complex dissociation. Computational analysis of the available crystal structures of redox protein complexes reveals features of the binding site that favor fast dissociation. In particular, the complex interface is shown to have low geometric complementarity and poor packing. These features are consistent with the necessity for fast dissociation since the absence of close packing facilitates solvation of the interface and disruption of the complex.",

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N2 - Interprotein electron transfer is characterized by protein interactions on the millisecond time scale. Such transient encounters are ensured by extremely high rates of complex dissociation. Computational analysis of the available crystal structures of redox protein complexes reveals features of the binding site that favor fast dissociation. In particular, the complex interface is shown to have low geometric complementarity and poor packing. These features are consistent with the necessity for fast dissociation since the absence of close packing facilitates solvation of the interface and disruption of the complex.

AB - Interprotein electron transfer is characterized by protein interactions on the millisecond time scale. Such transient encounters are ensured by extremely high rates of complex dissociation. Computational analysis of the available crystal structures of redox protein complexes reveals features of the binding site that favor fast dissociation. In particular, the complex interface is shown to have low geometric complementarity and poor packing. These features are consistent with the necessity for fast dissociation since the absence of close packing facilitates solvation of the interface and disruption of the complex.

KW - Atom packing

KW - Crystal structure

KW - Electron transfer

KW - Protein interactions

KW - Recognition

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JO - Proteins: Structure, Function and Bioinformatics

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IS - 3

ER -

The Architecture of the Binding Site in Redox Protein Complexes: Implications for Fast Dissociation

Abstract

Keywords

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