Volume 127, 2004

Spin-forbidden CO ligand recombination in myoglobin

Abstract

The reaction of small ligands within the distal pocket of haem proteins such as myoglobin, to form ligated, low-spin iron complexes is an archetypal spin-forbidden process in bioinorganic chemistry, because the initial, “deoxy” iron complex has a high-spin ground state. Density functional theory (DFT), transition-state theory (TST), and hybrid DFT/molecular mechanics (QM/MM) calculations are reported on the carbon monoxide reaction. Using DFT data for a model compound, TST rate calculations at room temperature are carried out which give fair agreement with experiment, and suggest a highly non-adiabatic nature to the reaction. QM/MM calculations on the whole protein are reported, which are in qualitative agreement with the gas-phase model results, but suggest that protein matrix effects on the reaction rate may be important.

Article information

Article type
Discussion
Submitted
17 Nov 2003
Accepted
28 Nov 2003
First published
27 Apr 2004

Faraday Discuss., 2004,127, 165-177

Spin-forbidden CO ligand recombination in myoglobin

J. N. Harvey, Faraday Discuss., 2004, 127, 165 DOI: 10.1039/B314768A

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