期刊
出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.2112382119
关键词
thermodynamics; protein; folding; transition state; molten globule
资金
- Grants Proseqo (FP7 EU program)
- Spanish Research Council [FIS2016-80458-P, PID2019-111148GB-I00]
- Catalan government
- Padua University [6710927028]
- Fondazione Cariparo Visiting Programme 2018 (project Time-resolved Force Spectroscopy of Single DNA molecules)
This study experimentally verifies the existence of a molten globule intermediate in the protein folding process and reveals some thermodynamic properties of this intermediate.
Understanding how proteins fold into their native structure is a fundamental problem in biophysics, crucial for protein design. It has been hypothesized that the formation of a molten globule intermediate precedes folding to the native conformation of globular proteins; however, its thermodynamic properties are poorly known. We perform single-molecule pulling experiments of protein barnase in the range of 7 degrees C to 37 degrees C using a temperature-jump optical trap. We derive the folding free energy, entropy and enthalpy, and heat capacity change (Delta C-p = 1,050 +/- 50 cal/mol.K) at low ionic strength conditions. From the measured unfolding and folding kinetic rates, we also determine the thermodynamic properties of the transition state, finding a significant change in Delta C-p (similar to 90%) between the unfolded and the transition states. In contrast, the major change in enthalpy (similar to 80%) occurs between the transition and native states. These results highlight a transition state of high energy and low configurational entropy structurally similar to the native state, in agreement with the molten globule hypothesis.
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