On the Structure of Zinc(II) Coordination Compounds with L-Histidine


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Abstract

Spatial and electronic structures of various zinc(II) coordination compounds containing different L-histidine forms are quantum-chemically calculated with the HyperChem 8.0 software taking into account the effect of the solvent (water). Geometry optimization is performed by molecular mechanics, the semiempirical MNDO/d method, and the Polak-Ribière nonlinear conjugate gradient method. Molecular geometry is optimized in the three-dimensional space without symmetry constraints. IR spectroscopy, 13C NMR, and XRD methods are used to determine the composition, structure, and geometry of the coordination site of the zinc(II) complex with L-histidine.

About the authors

V. T. Panyushkin

Kuban State University

Author for correspondence.
Email: panyushkin@chem.kubsu.ru
Russian Federation, Krasnodar

V. A. Volynkin

Kuban State University

Email: panyushkin@chem.kubsu.ru
Russian Federation, Krasnodar

D. A. Lindt

Kuban State University

Email: panyushkin@chem.kubsu.ru
Russian Federation, Krasnodar

S. P. Tsaturyan

Kuban State University

Email: panyushkin@chem.kubsu.ru
Russian Federation, Krasnodar

L. Kh. Dzhabrailova

Chechen State University

Email: panyushkin@chem.kubsu.ru
Russian Federation, Grozny

M. Kh. Shamsutdinova

Chechen State University

Email: panyushkin@chem.kubsu.ru
Russian Federation, Grozny

N. A. Aksenov

North-Caucasus Federal University

Email: panyushkin@chem.kubsu.ru
Russian Federation, Stavropol

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