3-Hydroxylaminophenol Mutase from Ralstonia eutropha JMP134 Catalyzes a Bamberger Rearrangement

Author:

Schenzle Andreas12,Lenke Hiltrud1,Spain Jim C.3,Knackmuss Hans-Joachim12

Affiliation:

1. Fraunhofer Institut für Grenzflächen- und Bioverfahrenstechnik1and

2. Institut für Mikrobiologie der Universität Stuttgart,2 D-70569 Stuttgart, Germany, and

3. Armstrong Laboratory, AFRL/MRLQ, Tyndall Air Force Base, Florida 32403-53193

Abstract

ABSTRACT 3-Hydroxylaminophenol mutase from Ralstonia eutropha JMP134 is involved in the degradative pathway of 3-nitrophenol, in which it catalyzes the conversion of 3-hydroxylaminophenol to aminohydroquinone. To show that the reaction was really catalyzed by a single enzyme without the release of intermediates, the corresponding protein was purified to apparent homogeneity from an extract of cells grown on 3-nitrophenol as the nitrogen source and succinate as the carbon and energy source. 3-Hydroxylaminophenol mutase appears to be a relatively hydrophobic but soluble and colorless protein consisting of a single 62-kDa polypeptide. The pI was determined to be at pH 4.5. In a database search, the NH 2 -terminal amino acid sequence of the undigested protein and of two internal sequences of 3-hydroxylaminophenol mutase were found to be most similar to those of glutamine synthetases from different species. Hydroxylaminobenzene, 4-hydroxylaminotoluene, and 2-chloro-5-hydroxylaminophenol, but not 4-hydroxylaminobenzoate, can also serve as substrates for the enzyme. The enzyme requires no oxygen or added cofactors for its reaction, which suggests an enzymatic mechanism analogous to the acid-catalyzed Bamberger rearrangement.

Publisher

American Society for Microbiology

Subject

Molecular Biology,Microbiology

Reference56 articles.

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2. Gapped BLAST and PSI-BLAST: a new generation of protein database search programs

3. Über das Phenylhydroxylamin;Bamberger E.;Chem. Ber.,1984

4. Nonenzymatic reduction of nitrosobenzene to phenylhydroxylamine by NAD(P)H;Becker A. R.;Bioorg. Chem.,1980

5. Bisswanger H. Theorie und Methoden der Enzymkinetik. 1979 Verlag Chemie Weinheim Germany

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