Conformational stability of proline oligomers

In the native state of proteins there is a marked tendency for an aromatic amino acid to precede a cis proline. There are also significant differences between the three aromatic amino acids with Tyr exhibiting a noticeably higher propensity than Phe or Trp to precede a cis proline residue. In order

## Abstract The molecular geometries and the torsional potentials about the inter‐ring C‐C bond in α‐oligothiophenes (α‐nTh, n=2–4) have been calculated by means of conventional __ab initio__ and density functional theory (DFT) calculations employing the hybrid B3LYP and BH&HLYP functionals. The po

## Abstract Accurate geometries, relative energies, rotational and quartic centrifugal distortion constants, dipole moments, harmonic vibrational frequencies, and infrared intensities were determined from ab initio electronic structure calculations for eighteen conformers of the neutral form of the

## Abstract Free‐energy simulations have been used to estimate the change in the conformational stability of short polyalanine α‐helices when one of the alanines is replaced by a proline residue. For substituting proline in the middle of the helix the change in free energy of folding (ΔΔG°) was cal

## Abstract The conformational study on __N__‐methoxycarbonyl‐L‐proline‐__N__′‐methylamide (Moc‐Pro‐NHMe, prolylcarbamate) is carried out using __ab initio__ HF and density functional B3LYP methods with the self‐consistent reaction field method in the gas phase and in solution (chloroform, acetonit

## Abstract The chiroptical properties of S‐proline conformational isomers are examined on a theoretical model in which electronic wave functions are obtained from semiempirical molecular orbital calculations. The CNDO/S molecular orbital model is used to perform SCF‐MO calculations on ground state