A role for Asp-251 in cytochrome P-450cam oxygen activation

Nancy Counts Gerber; Stephen G. Sligar

doi:10.1016/s0021-9258(17)41772-8

A role for Asp-251 in cytochrome P-450cam oxygen activation

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Abstract

We have mutated Asp-251, Thr-252, and Lys-178 in cytochrome P-450cam and studied their effect on steady-state P-450cam catalysis. The mutation of Asp- 251 to Asn, which dramatically slows the reaction rate, affects a pH- dependent step in the reaction cycle. By examining the individual steps in the reaction cycle, we have determined that the effect of the D251N mutation occurs after dioxygen binding. Furthermore, our results suggest that the rate-limiting step of the D251N reaction cycle is the O-O bond scission event and that this residue also plays a crucial role in O-O bond scission in wild- type P-450cam. Based on homology with other P-450 enzymes and previous mutagenesis investigations, this role may be common to other P-450 systems, and we suggest a mechanism that is consistent with the effects of these mutations on enzyme activity.

Original language	English (US)
Pages (from-to)	4260-4266
Number of pages	7
Journal	Journal of Biological Chemistry
Volume	269
Issue number	6
DOIs	https://doi.org/10.1016/s0021-9258(17)41772-8
State	Published - Feb 11 1994

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Cell Biology

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title = "A role for Asp-251 in cytochrome P-450cam oxygen activation",

abstract = "We have mutated Asp-251, Thr-252, and Lys-178 in cytochrome P-450cam and studied their effect on steady-state P-450cam catalysis. The mutation of Asp- 251 to Asn, which dramatically slows the reaction rate, affects a pH- dependent step in the reaction cycle. By examining the individual steps in the reaction cycle, we have determined that the effect of the D251N mutation occurs after dioxygen binding. Furthermore, our results suggest that the rate-limiting step of the D251N reaction cycle is the O-O bond scission event and that this residue also plays a crucial role in O-O bond scission in wild- type P-450cam. Based on homology with other P-450 enzymes and previous mutagenesis investigations, this role may be common to other P-450 systems, and we suggest a mechanism that is consistent with the effects of these mutations on enzyme activity.",

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AU - Gerber, Nancy Counts

AU - Sligar, Stephen G.

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AB - We have mutated Asp-251, Thr-252, and Lys-178 in cytochrome P-450cam and studied their effect on steady-state P-450cam catalysis. The mutation of Asp- 251 to Asn, which dramatically slows the reaction rate, affects a pH- dependent step in the reaction cycle. By examining the individual steps in the reaction cycle, we have determined that the effect of the D251N mutation occurs after dioxygen binding. Furthermore, our results suggest that the rate-limiting step of the D251N reaction cycle is the O-O bond scission event and that this residue also plays a crucial role in O-O bond scission in wild- type P-450cam. Based on homology with other P-450 enzymes and previous mutagenesis investigations, this role may be common to other P-450 systems, and we suggest a mechanism that is consistent with the effects of these mutations on enzyme activity.

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A role for Asp-251 in cytochrome P-450cam oxygen activation

Abstract

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