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Pressure effect on the stability and the conformational dynamics of the D-Galactose/D-Glucose-binding protein from Escherichia coli. (Articolo in rivista)

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Pressure effect on the stability and the conformational dynamics of the D-Galactose/D-Glucose-binding protein from Escherichia coli. (Articolo in rivista) (literal)

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Marabotti A., Herman P., Staiano M., Varriale A., de Champdorè M., Rossi M., Gryczynski Z., D'Auria S. (2006)
Pressure effect on the stability and the conformational dynamics of the D-Galactose/D-Glucose-binding protein from Escherichia coli.
in Proteins (Online)
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Marabotti A., Herman P., Staiano M., Varriale A., de Champdorè M., Rossi M., Gryczynski Z., D'Auria S. (literal)

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Laboratory of Bioinformatics, Institute of Food Science, CNR, Avellino, Italy Interdepartmental Research Center for Computational and Biotechnological Sciences (CRISCEB), Second University of Naples,Naples, Italy Faculty of Mathematics and Physics, Institute of Physics, Charles University, Prague, Czech Republic Institute of Protein Biochemistry, CNR, Naples, Italy Center for Fluorescence Spectroscopy, UMAB, Baltimore, Marylan (literal)

Titolo

Pressure effect on the stability and the conformational dynamics of the D-Galactose/D-Glucose-binding protein from Escherichia coli. (literal)

Abstract

The effect of the pressure on the structure and stability of the D-Galactose/D-Glucose binding protein (GGBP) from Escherichia coli was studied by steady-state and time-resolved fluorescence spectroscopy, and the ability of glucose ligand to stabilize the GGBP structure was also investigated. Steady-state fluorescence experiments showed a marked quenching of fluorescence emission of GGBP in the absence of glucose. Instead, the presence of glucose seems to stabilize the structure of GGBP at low and moderate pressure values. Time-resolved fluorescence measurements showed that the GGBP taumean in the absence of glucose varies significantly up to 600 bar, while in the presence of the ligand it is almost unaffected by pressure increase up to 600 bar. The effect of the pressure on GGBP was also studied by molecular dynamics simulations. The simulation data support the spectroscopic results and confirm that the presence of glucose is able to contrast the negative effects of pressure on the protein structure. Taken together, the spectroscopic and computer simulation studies suggest that at pressure values up to 2000 bar the structure of GGBP in the absence of glucose remains folded, but a significant perturbation of the protein secondary structures can be detected. The binding of glucose reduces the negative effect of pressure on protein structure and confers protection from perturbation especially at moderate pressure values. 2005 Wiley-Liss, Inc. (literal)

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