de–e
as a function of temperature for Met-enkephalin in a distance dependent dielectric (DDE). First citation in article
Full figure (10 kB)Fig. 4. Dimensionless specific heat per unit residue, C(T), as a function of temperature for deca-alanine. First citation in article
Full figure (11 kB)Fig. 5. Dimensionless specific heat per unit residue, C(T), as a function of temperature for Met-enkephalin. First citation in article
Full figure (8 kB)Fig. 6. Average end-to-end distance de–e as a function of temperature for Met-enkephalin in a distance dependent dielectric (DDE). First citation in article
Full figure (39 kB)Fig. 7. Temperature dependence of the average energies (total, covalent, Lennard-Jones, Coulombic, and solvation) for deca-alanine in three different environments: (a) vacuum (VAC), (b) distance dependent dielectric (DDE), and (c) implicit solvent (SASA). First citation in article
Full figure (37 kB)Fig. 8. Temperature dependence of the average energies (total, covalent, Lennard-Jones, Coulombic, and solvation) for Met-enkephalin in three different environments: (a) vacuum (VAC), (b) distance dependent dielectric (DDE), and (c) implicit solvent (SASA). First citation in article