In force spectroscopy single-molecule experiments, an individual molecule, usually a polymer, is mechanically stretched by means of an externally controlled driving potential. Typically, the stiffness of this potential is much smaller than the stiffness of the potential of mean force along the molecular extension coordinate. Here we discuss how such a disparity alters the free energy and the reversibility of the driven system, with respect to the pristine molecular system under examination. In particular, by simulating unfolding/refolding experiments of a small protein, we examine the traits of the potential of mean force that are responsible for the dramatic amount of work dissipated in experiments using a soft device. Finally, we show that in bidirectional experiments the free energy of the free molecular system can be easily recovered by appropriate reweighting methods.
Free Energy Reconstruction in Bidirectional Force Spectroscopy Experiments: The Effect of the Device Stiffness / S. Marsili; P. Procacci. - In: JOURNAL OF PHYSICAL CHEMISTRY. B, CONDENSED MATTER, MATERIALS, SURFACES, INTERFACES & BIOPHYSICAL. - ISSN 1520-6106. - STAMPA. - 114:(2010), pp. 2506-2516. [10.1021/jp908663z]
Free Energy Reconstruction in Bidirectional Force Spectroscopy Experiments: The Effect of the Device Stiffness
MARSILI, SIMONE;PROCACCI, PIERO
2010
Abstract
In force spectroscopy single-molecule experiments, an individual molecule, usually a polymer, is mechanically stretched by means of an externally controlled driving potential. Typically, the stiffness of this potential is much smaller than the stiffness of the potential of mean force along the molecular extension coordinate. Here we discuss how such a disparity alters the free energy and the reversibility of the driven system, with respect to the pristine molecular system under examination. In particular, by simulating unfolding/refolding experiments of a small protein, we examine the traits of the potential of mean force that are responsible for the dramatic amount of work dissipated in experiments using a soft device. Finally, we show that in bidirectional experiments the free energy of the free molecular system can be easily recovered by appropriate reweighting methods.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.