Identification of Camphor Oxidation and Reduction Products in Pseudomonas putida: New Activity of the Cytochrome P450^sub cam^ System
P450 enzymes are known for catalyzing hydroxylation reactions of non-activated C-H bonds. For example, P450^sub cam^ from Pseudomonas putida oxidizes (1R)-(+)-camphor to 5-exo-hydroxy camphor and further to 5-ketocamphor. This hydroxylation reaction proceeds via a catalytic cycle in which the reduct...
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Veröffentlicht in: | Journal of chemical ecology 2011-06, Vol.37 (6), p.657 |
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Sprache: | eng |
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Zusammenfassung: | P450 enzymes are known for catalyzing hydroxylation reactions of non-activated C-H bonds. For example, P450^sub cam^ from Pseudomonas putida oxidizes (1R)-(+)-camphor to 5-exo-hydroxy camphor and further to 5-ketocamphor. This hydroxylation reaction proceeds via a catalytic cycle in which the reduction of dioxygen (O2) is coupled to the oxidation of the substrate. We have observed that under conditions of low oxygen, P. putida and isolated P450^sub cam^ reduce camphor to borneol. We characterized the formation of borneol under conditions of low oxygen or when the catalytic cycle is shunted by artificial oxidants like m-chloro perbenzoic acid, cumene hydroperoxide, etc. We also tested the toxicity of camphor and borneol with P. putida and Escherichia coli. We have found that in P. putida borneol is less toxic than camphor, whereas in E. coli borneol is more toxic than camphor. We discuss a potental ecological advantage of the camphor reduction reaction for P. putida.[PUBLICATION ABSTRACT] |
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ISSN: | 0098-0331 1573-1561 |
DOI: | 10.1007/s10886-011-9959-7 |