The configurational entropy of a β-heptapeptide in solution at four different temperatures is calculated. The contributions of the backbone and of the side-chain atoms to the total peptide entropy are analyzed separately and the effective contribution to the entropy arising from correlations between these terms determined. The correlation between the backbone and side-chain atoms amounts to about 17% and is rather insensitive to the temperature. The correlation of motion within the backbone and within side-chains is much larger and decreases with temperature. As the peptide reversibly folds at higher temperatures, its change in entropy and enthalpy upon folding is analyzed. The change in entropy and enthalpy upon folding of the peptide alon...
One of the most important questions in molecular biology is what determines folding pathways: native...
This thesis addresses two central questions regarding entropy changes in protein folding and molecul...
ABSTRACT We show that even in the complete absence of potential energies among the atoms in a protei...
The configurational entropy of a β-heptapeptide in solution at four different temperatures is calcul...
The configurational entropy of a beta -heptapeptide in solution at four different temperatures is ca...
A quantitative understanding of the complex relationship between microscopic structure and the therm...
Exploring the protein-folding problem has been a longstanding challenge in molecular biology and bio...
The thermodynamics of folding and unfolding of a beta-heptapeptide in methanol solution has been stu...
Protein folding evolves by exploring the conformational space with a subtle balance between enthalpy...
ABSTRACT The average contribution of confor-mational entropy for individual amino acid residues towa...
Long-standing questions on how peptides fold are addressed by the simulation at different temperatur...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
The folding stability of a protein is governed by the free-energy difference between its folded and ...
One of the most challenging tasks remaining in the field of biochemistry is the one of understanding...
AbstractWe show that even in the complete absence of potential energies among the atoms in a protein...
One of the most important questions in molecular biology is what determines folding pathways: native...
This thesis addresses two central questions regarding entropy changes in protein folding and molecul...
ABSTRACT We show that even in the complete absence of potential energies among the atoms in a protei...
The configurational entropy of a β-heptapeptide in solution at four different temperatures is calcul...
The configurational entropy of a beta -heptapeptide in solution at four different temperatures is ca...
A quantitative understanding of the complex relationship between microscopic structure and the therm...
Exploring the protein-folding problem has been a longstanding challenge in molecular biology and bio...
The thermodynamics of folding and unfolding of a beta-heptapeptide in methanol solution has been stu...
Protein folding evolves by exploring the conformational space with a subtle balance between enthalpy...
ABSTRACT The average contribution of confor-mational entropy for individual amino acid residues towa...
Long-standing questions on how peptides fold are addressed by the simulation at different temperatur...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
The folding stability of a protein is governed by the free-energy difference between its folded and ...
One of the most challenging tasks remaining in the field of biochemistry is the one of understanding...
AbstractWe show that even in the complete absence of potential energies among the atoms in a protein...
One of the most important questions in molecular biology is what determines folding pathways: native...
This thesis addresses two central questions regarding entropy changes in protein folding and molecul...
ABSTRACT We show that even in the complete absence of potential energies among the atoms in a protei...