Protein stability is determined by the characteristics of the protein itself as well as the surrounding solvent. Herein, we discuss the stability of the folded and unfolded structures of proteins obtained from Anton’s long simulations (Lindorff-Larsen, K.; Piana, S.; Dror, R. O.; Shaw, D.E. <i>Science</i>, <b>2011</b>, 334, 517–520). Specifically, the stabilities of CLN025, the WW domain variant GTT, the triple mutant of the redesigned protein G variant NuG2, and the de novo-designed three-helix bundle protein are investigated. The solvation free energy of the structures is calculated using the three-dimensional reference interaction site model with the reference-modified density functional theory. The total energy is given by the sum of th...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
Understanding and modelling protein folding remains a key scientific and engineering challenge. Two ...
The folding stability of a protein is governed by the free-energy difference between its folded and ...
Taking protein G with 56 residues for a case study, we investigate the mechanism of protein folding....
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
Assuming that the protein primary sequence contains all information required to fold a protei...
Most proteins must fold to a well-defined structure with a minimal stability to perform their funct...
We investigate the effects of solvent specificities on the stability of the native structure (NS) of...
AbstractBackground: A large energy gap between the native state and the non-native folded states is ...
It has been noted by scientists that certain native, protein structures occur more frequently than o...
The stability of a protein is determined from its properties and surrounding solvent. In our previou...
Thermodynamic hypothesis and kinetic stability are currently used to understand protein folding. The...
Thermodynamic hypothesis and kinetic stability are currently used to understand protein folding. The...
AbstractA theoretical framework is developed to study the dynamics of protein folding. The key insig...
Calculation of the free energy of protein folding and delineation of its pre-organization are of for...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
Understanding and modelling protein folding remains a key scientific and engineering challenge. Two ...
The folding stability of a protein is governed by the free-energy difference between its folded and ...
Taking protein G with 56 residues for a case study, we investigate the mechanism of protein folding....
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
Assuming that the protein primary sequence contains all information required to fold a protei...
Most proteins must fold to a well-defined structure with a minimal stability to perform their funct...
We investigate the effects of solvent specificities on the stability of the native structure (NS) of...
AbstractBackground: A large energy gap between the native state and the non-native folded states is ...
It has been noted by scientists that certain native, protein structures occur more frequently than o...
The stability of a protein is determined from its properties and surrounding solvent. In our previou...
Thermodynamic hypothesis and kinetic stability are currently used to understand protein folding. The...
Thermodynamic hypothesis and kinetic stability are currently used to understand protein folding. The...
AbstractA theoretical framework is developed to study the dynamics of protein folding. The key insig...
Calculation of the free energy of protein folding and delineation of its pre-organization are of for...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
Understanding and modelling protein folding remains a key scientific and engineering challenge. Two ...
The folding stability of a protein is governed by the free-energy difference between its folded and ...