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Pressure-jump-induced kinetics reveals a hydration dependent folding/unfolding mechanism of ribonuclease A

Pressure-jump (p-jump)-induced relaxation kinetics was used to explore the energy landscape of protein folding/unfolding of Y115W, a fluorescent variant of ribonuclease A. Pressure-jumps of 40MPa amplitude (5ms dead-time) were conducted both to higher (unfolding) and to lower (folding) pressure, in the range from 100 to 500MPa, between 30 and 50°C. Significant deviations from the expected symmetrical protein relaxation kinetics were observed. Whereas downward p-jumps resulted always in single exponential kinetics, the kinetics induced by upward p-jumps were biphasic in the low pressure range and monophasic at higher pressures. The relative amplitude of the slow phase decreased as a function of both pressure and temperature. At 50°C, only the fast phase remained. These results can be interpreted within the framework of a two-dimensional energy surface containing a pressure- and temperature-dependent barrier between two unfolded states differing in the isomeric state of the Asn-113–Pro-114 bond. Analysis of the activation volume of the fast kinetic phase revealed a temperature-dependent shift of the unfolding transition state to a larger volume. The observed compensation of this effect by glycerol offers an explanation for its protein stabilizing effect

© Biophysical Journal, 2006, vol.91, núm.6, p.2264-2274

Biophysical Society

Autor: Font Sentias, Josep
Torrent i Mas, Joan
Ribó i Panosa, Marc
Laurents, Douglas V.
Balny, Claude
Vilanova i Brugués, Maria
Lange, Reinhard
Data: 2006
Resum: Pressure-jump (p-jump)-induced relaxation kinetics was used to explore the energy landscape of protein folding/unfolding of Y115W, a fluorescent variant of ribonuclease A. Pressure-jumps of 40MPa amplitude (5ms dead-time) were conducted both to higher (unfolding) and to lower (folding) pressure, in the range from 100 to 500MPa, between 30 and 50°C. Significant deviations from the expected symmetrical protein relaxation kinetics were observed. Whereas downward p-jumps resulted always in single exponential kinetics, the kinetics induced by upward p-jumps were biphasic in the low pressure range and monophasic at higher pressures. The relative amplitude of the slow phase decreased as a function of both pressure and temperature. At 50°C, only the fast phase remained. These results can be interpreted within the framework of a two-dimensional energy surface containing a pressure- and temperature-dependent barrier between two unfolded states differing in the isomeric state of the Asn-113–Pro-114 bond. Analysis of the activation volume of the fast kinetic phase revealed a temperature-dependent shift of the unfolding transition state to a larger volume. The observed compensation of this effect by glycerol offers an explanation for its protein stabilizing effect
Format: application/pdf
Cita: Font, J., Torrent, J., Ribo, M., Laurents, D.V., Balny, C., Vilanova, M., et al. (2006). Pressure-jump-induced kinetics reveals a hydration dependent folding/unfolding mechanism of ribonuclease A. Biophysical Journal, 91 (6), 2264-2274. Recuperat 15 setembre de 2011, a doi:10.1529/biophysj.106.082552
ISSN: 0006-3495
Accés al document: http://hdl.handle.net/10256/3564
Llenguatge: eng
Editor: Biophysical Society
Col·lecció: Reproducció digital del document publicat a: http://dx.doi.org/10.1529/biophysj.106.082552
Articles publicats (D-B)
És part de: © Biophysical Journal, 2006, vol.91, núm.6, p.2264-2274
Drets: Tots els drets reservats
Matèria: Cinemàtica
Glicerina
Ribonucleases
Glycerol
Kinematics
Títol: Pressure-jump-induced kinetics reveals a hydration dependent folding/unfolding mechanism of ribonuclease A
Tipus: info:eu-repo/semantics/article
Repositori: DUGiDocs

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