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Molten globule–like transition state of protein barnase measured with calorimetric force spectroscopy

Marc Rico-Pastó, Annamaria Zaltron, Sebastian J. Davis, Silvia Frutos, Félix Ritort

2022Proceedings of the National Academy of Sciences41 citationsDOIOpen Access PDF

Abstract

SignificanceUnderstanding the molecular forces driving the unfolded polypeptide chain to self-assemble into a functional native structure remains an open question. However, identifying the states visited during protein folding (e.g., the transition state between the unfolded and native states) is tricky due to their transient nature. Here, we introduce calorimetric force spectroscopy in a temperature jump optical trap to determine the enthalpy, entropy, and heat capacity of the transition state of protein barnase. We find that the transition state has the properties of a dry molten globule, that is, high free energy and low configurational entropy, being structurally similar to the native state. This experimental single-molecule study characterizes the thermodynamic properties of the transition state in funneled energy landscapes.

Topics & Concepts

BarnaseForce spectroscopyProtein foldingChemistryEnthalpyMolten globuleEnergy landscapeEntropy (arrow of time)ThermodynamicsSpectroscopyChemical physicsNative stateCrystallographyCalorimetryMoleculePhysicsRibonucleaseBiochemistryOrganic chemistryQuantum mechanicsRNAGeneProtein Structure and DynamicsForce Microscopy Techniques and Applicationsthermodynamics and calorimetric analyses
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