The transient unfolding events from the native state of a protein towards higher energy states can be closely investigated by studying the process of hydrogen exchange. Here, we present BLUU-Tramp (Biophysics Lab- oratory University of Udine—Temperature ramp), a new method to measure the rates for the exchange pro- cess and the underlying equilibrium thermodynamic parameters, using just a single sample preparation, in a single experiment that lasts some 20 to 60 h depending on the protein thermal stability, to record hundreds of points over a virtually continuous temperature window. The method is suitable also in presence of other proteins in the sample, if only the target protein is 15N-labelled. This allows the complete thermodynamic de- scription of the unfolding landscape at an atomic level in the presence of small or macromolecular ligands or cosolutes, or in physiological environments. The method was successfully tested with human ubiquitin. Then the unfolding thermodynamic parameters were satisfactorily determined for the amyloidogenic protein β2- microglobulin, in aqueous buffer and in synovial liquid, that is the natural medium of amyloid deposition in joints.

Single-shot NMR measurement of protein unfolding landscapes.

RENNELLA, Enrico;CORAZZA, Alessandra;CODUTTI, Luca;CAUSERO, Araldo;VIGLINO, Paolo;FOGOLARI, Federico;ESPOSITO, Gennaro
2012-01-01

Abstract

The transient unfolding events from the native state of a protein towards higher energy states can be closely investigated by studying the process of hydrogen exchange. Here, we present BLUU-Tramp (Biophysics Lab- oratory University of Udine—Temperature ramp), a new method to measure the rates for the exchange pro- cess and the underlying equilibrium thermodynamic parameters, using just a single sample preparation, in a single experiment that lasts some 20 to 60 h depending on the protein thermal stability, to record hundreds of points over a virtually continuous temperature window. The method is suitable also in presence of other proteins in the sample, if only the target protein is 15N-labelled. This allows the complete thermodynamic de- scription of the unfolding landscape at an atomic level in the presence of small or macromolecular ligands or cosolutes, or in physiological environments. The method was successfully tested with human ubiquitin. Then the unfolding thermodynamic parameters were satisfactorily determined for the amyloidogenic protein β2- microglobulin, in aqueous buffer and in synovial liquid, that is the natural medium of amyloid deposition in joints.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/880448
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