An Ab Initio Study of the Geometry and Rotational Barrier of 4- Phenylimidazole

Abstract

The molecular design of several synthetic artificial enzymes, which mimic the action of the serine protease alpha-chymotrypsin, incorporates the phenylimidazole molecular fragment to play the role of the His-57 residue in the native enzyme active site. Study of these artificial enzymes by molecular modelling techniques requires accurate torsional force field parameters for the phenylimidazole inter-ring bond. This, in turn requires accurate characterization of the barrier to rotation around this bond. Previous semi- empirical calculations of this rotational barrier have neglected geometry optimization of the molecule at the points along the rotational pathway. The 4- phenylimidazole rotational barrier (5-16 kcal/mol) presented here was obtained by full ab initio geometry optimization at the 3-21G level at each of the points along the rotational pathway. (AW)

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Document Details

Document Type
Technical Report
Publication Date
Mar 16, 1990
Accession Number
ADA219907

Entities

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  • Carol A. Venanzi
  • Peter V. Maye

Organizations

  • New Jersey Institute of Technology

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