Active Species of Horseradish Peroxidase (HRP) and Cytochrome P450: Two Electronic Chameleons

Sam P. De Visser; Sason Shaik; Pankaz K. Sharma; Devesh Kumar; Walter Thiel

doi:10.1021/ja0380906

Active Species of Horseradish Peroxidase (HRP) and Cytochrome P450: Two Electronic Chameleons

Sam P. De Visser, Sason Shaik^*, Pankaz K. Sharma, Devesh Kumar, Walter Thiel

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

192 Scopus citations

Abstract

The active site of HRP Compound I (Cpd I) is modeled using hybrid density functional theory (UB3LYP). The effects of neighboring amino acids and of environmental polarity are included. The low-lying states have porphyrin radical cationic species (Por^.+). However, since the Por ^.+ species is a very good electron acceptor, other species, which can be either the ligand or side chain amino acid residues, may participate in electron donation to the Por^.+ moiety, thereby making Cpd I behave like a chemical chameleon. Thus, this behavior that was noted before for Cpd I of P450 is apparently much more wide ranging than initially appreciated. Since chemical chameleonic behavior property was found to be expressed not only in the properties of Cpd I itself, but also in its reactivity, the roots of this phenomenon are generalized. A comparative discussion of Cpd I species follows for the enzymes HRP, CcP, APX, CAT (catalase), and P450.

Original language	English
Pages (from-to)	15779-15788
Number of pages	10
Journal	Journal of the American Chemical Society
Volume	125
Issue number	51
DOIs	https://doi.org/10.1021/ja0380906
State	Published - 24 Dec 2003

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title = "Active Species of Horseradish Peroxidase (HRP) and Cytochrome P450: Two Electronic Chameleons",

abstract = "The active site of HRP Compound I (Cpd I) is modeled using hybrid density functional theory (UB3LYP). The effects of neighboring amino acids and of environmental polarity are included. The low-lying states have porphyrin radical cationic species (Por.+). However, since the Por .+ species is a very good electron acceptor, other species, which can be either the ligand or side chain amino acid residues, may participate in electron donation to the Por.+ moiety, thereby making Cpd I behave like a chemical chameleon. Thus, this behavior that was noted before for Cpd I of P450 is apparently much more wide ranging than initially appreciated. Since chemical chameleonic behavior property was found to be expressed not only in the properties of Cpd I itself, but also in its reactivity, the roots of this phenomenon are generalized. A comparative discussion of Cpd I species follows for the enzymes HRP, CcP, APX, CAT (catalase), and P450.",

author = "{De Visser}, {Sam P.} and Sason Shaik and Sharma, {Pankaz K.} and Devesh Kumar and Walter Thiel",

year = "2003",

month = dec,

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doi = "10.1021/ja0380906",

language = "אנגלית",

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T2 - Two Electronic Chameleons

AU - De Visser, Sam P.

AU - Shaik, Sason

AU - Sharma, Pankaz K.

AU - Kumar, Devesh

AU - Thiel, Walter

PY - 2003/12/24

Y1 - 2003/12/24

N2 - The active site of HRP Compound I (Cpd I) is modeled using hybrid density functional theory (UB3LYP). The effects of neighboring amino acids and of environmental polarity are included. The low-lying states have porphyrin radical cationic species (Por.+). However, since the Por .+ species is a very good electron acceptor, other species, which can be either the ligand or side chain amino acid residues, may participate in electron donation to the Por.+ moiety, thereby making Cpd I behave like a chemical chameleon. Thus, this behavior that was noted before for Cpd I of P450 is apparently much more wide ranging than initially appreciated. Since chemical chameleonic behavior property was found to be expressed not only in the properties of Cpd I itself, but also in its reactivity, the roots of this phenomenon are generalized. A comparative discussion of Cpd I species follows for the enzymes HRP, CcP, APX, CAT (catalase), and P450.

AB - The active site of HRP Compound I (Cpd I) is modeled using hybrid density functional theory (UB3LYP). The effects of neighboring amino acids and of environmental polarity are included. The low-lying states have porphyrin radical cationic species (Por.+). However, since the Por .+ species is a very good electron acceptor, other species, which can be either the ligand or side chain amino acid residues, may participate in electron donation to the Por.+ moiety, thereby making Cpd I behave like a chemical chameleon. Thus, this behavior that was noted before for Cpd I of P450 is apparently much more wide ranging than initially appreciated. Since chemical chameleonic behavior property was found to be expressed not only in the properties of Cpd I itself, but also in its reactivity, the roots of this phenomenon are generalized. A comparative discussion of Cpd I species follows for the enzymes HRP, CcP, APX, CAT (catalase), and P450.

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Active Species of Horseradish Peroxidase (HRP) and Cytochrome P450: Two Electronic Chameleons

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