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Protein folding mechanism revealed by single-molecule force spectroscopy experiments

Sun Hao, Zilong Guo, Hong Haiyan, Ping Yu, Zhenyong Xue, Hu Chen

2021Biophysics Reports12 citationsDOIOpen Access PDF

Abstract

Force spectroscopy experiments use mechanical force as a control factor to regulate the folding and unfolding process of proteins. Atomic force microscopy has been widely used to study the mechanical stability of proteins, and obtained unfolding forces and unfolding distance of different proteins, while recently, more low force folding and unfolding measurements were done by optical tweezers and magnetic tweezers. Due to the relatively small distortion of the free energy landscape, low force measurements give the free energy landscape information over bigger conformational space. In this review, we summarize the results of force spectroscopy experiments on different proteins. The unfolding distance obtained at high forces by atomic force microscopy are mostly smaller than 2 nm, while the unfolding distances at low forces distribute over a larger range: from a negative value to more than 6 nm. The sizes of the transition states at low force are ~4 nm for most compact two-state globular proteins, which indicates that this transition state might be the general free energy barrier separating the unfolded state and the theoretically predicated molten globule state. Up to now, only a limited number of proteins has been studied at low forces. We expect that more and more proteins with different conformations will be studied at low forces to reveal the general protein folding mechanism.

Topics & Concepts

Force spectroscopyEnergy landscapeMagnetic tweezersProtein foldingChemistryChemical physicsFolding (DSP implementation)Optical tweezersMolten globuleGlobular proteinSpectroscopyCrystallographyNative stateMoleculePhysicsElectrical engineeringEngineeringBiochemistryOrganic chemistryQuantum mechanicsForce Microscopy Techniques and ApplicationsProtein Structure and DynamicsEnzyme Structure and Function
Protein folding mechanism revealed by single-molecule force spectroscopy experiments | Litcius