Abstract
In this study we compare the binding energies of polycoordinated complexes of Zn2+ within cavities composed of model “hard” (H2O, OH−) or “soft” (CH3SH, CH3S−) ligands. Ab initio supermolecule computations are performed at the HF and MP2 levels using extended basis sets to determine the binding energies and their components as a function of: the number of ligands, ranging from three to six; the net charge of the cavity; and the “hard” versus “soft” character of the ligands. These ab initio computations are used to test the reliability of the SIBFA molecular mechanics procedure, originally formulated and calibrated on the basis of ab initio computations, for such charged systems. The SIBFA intermolecular interaction energies match the corresponding ab initio values using a coreless effective potential split-valence basis set with a relative error of ≤3%. Extensions to binuclear Zn2+ complexes, such as those that occur in the Zn-binding sites of Gal4 and β-lactamase proteins, are performed to test the applicability of the methodology for such systems. © 2000 John Wiley & Sons, Inc. J Comput Chem 21: 1011–1039, 2000
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