Redox enzymes are ubiquitous in all living organisms. In fact, oxidation and reduction reactions are fundamental for the transformation of cellular and external compounds both for cell reproduction and for energy production. Redox enzymes share a common characteristic that is the capacity of transferring electrons to and from molecules. In addition, microorganisms contain many oxidative enzymes, and because they are relatively easier to cultivate and study, they have been investigated in details, in particular for potential use in biotechnological field. One important reaction that oxidative enzymes perform is the introduction of one or two oxygen atoms on aromatic compounds. The most representative classes of enzymes that perform this reaction are oxygenases/hydroxylases, peroxidases, and laccases; they differ in many aspects: the metal present in the active site, the used reductive cofactor, the final oxidant, and the number of electrons transferred in each step. Their essential features and mechanisms of action have been the subject of several studies, together with some structural analyses. This review reports recent developments and summarizes some of the most interesting results concerning both structural requirements and mechanisms implicated in aromatic hydroxylation.

Microbial enzymes for aromatic compound hydroxylation / P. Di Gennaro, A. Bargna, G. Sello. - In: APPLIED MICROBIOLOGY AND BIOTECHNOLOGY. - ISSN 0175-7598. - 90:6(2011), pp. 1817-1827.

Microbial enzymes for aromatic compound hydroxylation

G. Sello
Ultimo
2011

Abstract

Redox enzymes are ubiquitous in all living organisms. In fact, oxidation and reduction reactions are fundamental for the transformation of cellular and external compounds both for cell reproduction and for energy production. Redox enzymes share a common characteristic that is the capacity of transferring electrons to and from molecules. In addition, microorganisms contain many oxidative enzymes, and because they are relatively easier to cultivate and study, they have been investigated in details, in particular for potential use in biotechnological field. One important reaction that oxidative enzymes perform is the introduction of one or two oxygen atoms on aromatic compounds. The most representative classes of enzymes that perform this reaction are oxygenases/hydroxylases, peroxidases, and laccases; they differ in many aspects: the metal present in the active site, the used reductive cofactor, the final oxidant, and the number of electrons transferred in each step. Their essential features and mechanisms of action have been the subject of several studies, together with some structural analyses. This review reports recent developments and summarizes some of the most interesting results concerning both structural requirements and mechanisms implicated in aromatic hydroxylation.
Aromatic compounds; Bacteria; Hydroxylation reaction; Laccases; Oxygenases/hydroxylases; Peroxidases
Settore BIO/11 - Biologia Molecolare
Settore BIO/19 - Microbiologia Generale
Settore CHIM/06 - Chimica Organica
2011
Article (author)
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/159878
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