Flexibility of tripeptides in solution: free energy molecular mechanics

Flexibility of tripeptides in solution: free energy molecular mechanics

A full theory of the conformations of biopolymers requires a method for treating the effects of solvent on the induced structures. This is especially critical in aqueous solvent where hydrogen‐bonding and dielectric shielding play major roles in determining the relative stability of conformers. Calc...

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Veröffentlicht in:International Journal of Peptide and Protein Research 1990-04, Vol.35 (4), p.315-327
Hauptverfasser: RAMÉ, GRACIELA L., LAU, WAN F., PETTITT, B. MONTGOMERY
Format: Artikel
Sprache:eng
Schlagworte:
Alanine
Amino Acid Sequence
Atomic and molecular physics
conformations
Exact sciences and technology
free energy function
Glycine
Models, Theoretical
molecular mechanics
Molecular properties and interactions with photons
Molecular Sequence Data
Molecular spectra
Oligopeptides - analysis
Physics
Protein Conformation
Solutions
solvent effects
Thermodynamics
tripeptides
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Zusammenfassung:A full theory of the conformations of biopolymers requires a method for treating the effects of solvent on the induced structures. This is especially critical in aqueous solvent where hydrogen‐bonding and dielectric shielding play major roles in determining the relative stability of conformers. Calculations of peptide conformations on a free energy surface are contrasted with the traditional sort of calculations which employs a simple potential energy function (in vacuo). The method employs a pairwise decomposable free energy surface determined by approximate analytical statistical mechanical theory. Applications are presented for tripeptides of alanine and glycine in water. This method, with precomputed free energy functions, takes the same amount of time and effort as traditional molecular mechanics in vacuo.
ISSN:0367-8377
1399-3011
DOI:10.1111/j.1399-3011.1990.tb00056.x