Thermal and Magnetic Properties of [Fe8S8] 2+Supercluster As Nitrogenase Protein Core

Authors

Marek Matusiewicz, Technical University of Czestochowa
Julita Ozga, Technical University of Czestochowa
Jacek Kasperczyk, Jan Dlugosz University
Gregory Kozlowski, Wright State University - Main CampusFollow
Ivan Kityk, Technical University of Czestochowa

Document Type

Article

Publication Date

9-1-2014

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Abstract

Theoretical investigation of magnetic and thermal properties of [Fe8S8]2+ supercluster, as a core of nitrogenase's protein, has been performed based on the generalized Heisenberg model which includes a double exchange interaction. The supercluster's geometry is modeled as a triple cubane. Energy levels as a function of Heisenberg exchange and double-exchange interactions have been calculated numerically by means of specifically written program. The knowledge of energy spectrum parameterized in terms of the total spin of the whole cluster or the partial spin of the cluster allows to determine the lowest spin state of the supercluster as S = 0 or S = 6 depending on parameters of the model. The heat capacity and the magnetic susceptibility have been calculated as a function of temperature. These results can be compared to the existing experimental data for proteins and enzymes possessing cluster [Fe8S8]2+ as an active center.

Repository Citation

Matusiewicz, M., Ozga, J., Kasperczyk, J., Kozlowski, G., & Kityk, I. (2014). Thermal and Magnetic Properties of [Fe8S8] 2+Supercluster As Nitrogenase Protein Core. Journal of Computational and Theoretical Nanoscience, 11 (9), 2038-2045.
https://corescholar.libraries.wright.edu/physics/1553

DOI

10.1166/jctn.2014.3604