Neutron cryo-crystallography captures the protonation state of ferryl heme in a peroxidase

Neutron cryo-crystallography captures the protonation state of ferryl heme in a peroxidase

Heme enzymes activate oxygen through formation of transient iron-oxo (ferryl) intermediates of the heme iron. A long-standing question has been the nature of the iron-oxygen bond and, in particular, the protonation state. We present neutron structures of the ferric derivative of cytochrome c peroxid...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2014-07, Vol.345 (6193), p.193-197
Hauptverfasser: Casadei, Cecilia M., Gumiero, Andrea, Metcalfe, Clive L., Murphy, Emma J., Basran, Jaswir, Concilio, Maria Grazia, Teixeira, Susana C. M., Schrader, Tobias E., Fielding, Alistair J., Ostermann, Andreas, Blakeley, Matthew P., Raven, Emma L., Moody, Peter C. E.
Format: Artikel
Sprache:eng
Schlagworte:
Atoms
Biochemistry
Crystallography
Diffraction
Enzymes
Histidine
Hydrogen
Hydrogen bonds
Iron
Neutron scattering
Neutrons
Nuclear scattering
Oxygen
Peroxidase
Protonation
Protons
Residues
Scattering
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Zusammenfassung:Heme enzymes activate oxygen through formation of transient iron-oxo (ferryl) intermediates of the heme iron. A long-standing question has been the nature of the iron-oxygen bond and, in particular, the protonation state. We present neutron structures of the ferric derivative of cytochrome c peroxidase and its ferryl intermediate; these allow direct visualization of protonation states. We demonstrate that the ferryl heme is an Fe(IV)=O species and is not protonated. Comparison of the structures shows that the distal histidine becomes protonated on formation of the ferryl intermediate, which has implications for the understanding of O–O bond cleavage in heme enzymes. The structures highlight the advantages of neutron cryo-crystallography in probing reaction mechanisms and visualizing protonation states in enzyme intermediates.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1254398