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Redox Modifications of the C-terminal Cysteine Residue Cause Structural Changes in S100A1 and S100B Proteins

Overview
Journal Biochim Biophys Acta
Specialties Biochemistry
Biophysics
Date 2004 Dec 14
PMID 15590070
Citations 22
Authors
Liliya Zhukova
Igor Zhukov
Wojciech Bal
Aleksandra Wyslouch-Cieszynska
Affiliations
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Abstract

S100 is a family of small, acidic, calcium binding proteins involved in the control of a multitude of intra- and extracellular processes, including many pathologies. The application of the analytical methodology based on the combination of RP HPLC and ESI-MS allowed for the characterization of S-nitrosylation and S-glutathionylation in two representative S100 proteins: S100A1 and S100B. The GSNO related S-nitrosylation of the conserved C-terminal cysteine is strongly activated by the binding of Ca(II) to S100A1 and of Ca(II) and Zn(II) to S100B. This modification results in a global alteration of protein structure, as demonstrated by a variety of techniques. The presented results provide a mechanistic basis for further studies of the function of S100 proteins in the control of redox-based and metal-based signal transduction.

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