The reovirus sigma1 aspartic acid sandwich: a trimerization motif poised for conformational change

Reovirus attachment protein sigma1 mediates engagement of receptors on the surface of target cells and undergoes dramatic conformational rearrangements during viral disassembly in the endocytic pathway. The sigma1 protein is a filamentous, trimeric molecule with a globular beta-barrel head domain. A...

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Veröffentlicht in:	The Journal of biological chemistry 2007-04, Vol.282 (15), p.11582-11589
Hauptverfasser:	Schelling, Pierre, Guglielmi, Kristen M, Kirchner, Eva, Paetzold, Bernhard, Dermody, Terence S, Stehle, Thilo
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Motifs Aspartic Acid - genetics Aspartic Acid - metabolism Capsid Proteins - genetics Capsid Proteins - isolation & purification Capsid Proteins - metabolism Cell Adhesion Molecules - metabolism Crystallography, X-Ray Models, Molecular Mutation - genetics Orthoreovirus, Mammalian - chemistry Orthoreovirus, Mammalian - genetics Orthoreovirus, Mammalian - metabolism Protein Binding Protein Structure, Quaternary Protein Structure, Tertiary Protein Subunits - chemistry Protein Subunits - metabolism Structural Homology, Protein
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creator	Schelling, Pierre Guglielmi, Kristen M Kirchner, Eva Paetzold, Bernhard Dermody, Terence S Stehle, Thilo
description	Reovirus attachment protein sigma1 mediates engagement of receptors on the surface of target cells and undergoes dramatic conformational rearrangements during viral disassembly in the endocytic pathway. The sigma1 protein is a filamentous, trimeric molecule with a globular beta-barrel head domain. An unusual cluster of aspartic acid residues sandwiched between hydrophobic tyrosines is located at the sigma1 subunit interface. A 1.75-A structure of the sigma1 head domain now reveals two water molecules at the subunit interface that are held strictly in position and interact with neighboring residues. Structural and biochemical analyses of mutants affecting the aspartic acid sandwich indicate that these residues and the corresponding chelated water molecules act as a plug to block the free flow of solvent and stabilize the trimer. This arrangement of residues at the sigma1 head trimer interface illustrates a new protein design motif that may confer conformational mobility during cell entry.
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subjects	Amino Acid Motifs Aspartic Acid - genetics Aspartic Acid - metabolism Capsid Proteins - genetics Capsid Proteins - isolation & purification Capsid Proteins - metabolism Cell Adhesion Molecules - metabolism Crystallography, X-Ray Models, Molecular Mutation - genetics Orthoreovirus, Mammalian - chemistry Orthoreovirus, Mammalian - genetics Orthoreovirus, Mammalian - metabolism Protein Binding Protein Structure, Quaternary Protein Structure, Tertiary Protein Subunits - chemistry Protein Subunits - metabolism Structural Homology, Protein
title	The reovirus sigma1 aspartic acid sandwich: a trimerization motif poised for conformational change
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