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Mutant d-amino acid oxidase with higher catalytic efficiency toward d-amino acids with bulky side chains

Mutant d-amino acid oxidase with higher catalytic efficiency toward d-amino acids with bulky side... d-Amino acid oxidase from the yeast Trigonopsis variabilis (TvDAAO) is widely used in fine organic synthesis, including the preparation of unnatural l-amino acids and α-keto acids. The analysis of the three-dimensional structure of TvDAAO was carried out with the aim of producing the enzyme specific to d-amino acids with bulky side chains. The analysis revealed the residue Phe54 at the entrance to the active site, which controls the substrate access to this site. The residue Phe54 was replaced by residues Ala, Ser, and Tyr. The cultivation of recombinant E. coli strains expressing TvDAAO mutants showed that the mutein with the Phe54Ala substitution had very low stability. Thus, the inactivation of the enzyme occured within 10 min after the cell disruption. The Phe54Ser TvDAAO and Phe54Tyr TvDAAO mutants were obtained as homogeneous preparations, and their thermal stability and catalytic properties were investigated. The introduction of Phe54Ser and Phe54Tyr substitutions resulted in additional stabilization of the protein macromolecule compared to the wild-type TvDAAO. Thus, the half-inactivation time for the mutant enzymes at 54 °C increased by a factor of 1.5 and 2, respectively. As in the case of wild-type TvDAAO, the thermal inactivation of the muteins proceeds via a two-step dissociative mechanism. The introduction of mutations led to a strong change in the substrate specificity profile. The mutants have no activity toward a series of d-amino acids (Phe54Ser TvDAAO toward d-Ala, d-Ser, d-Val, and d-Thr; Phe54Tyr TvDAAO toward d-Ser, d-Tyr, d-Thr, and d-Lys). The catalytic efficiency (the k cat/K M ratio) of the Phe54Ser TvDAAO mutant toward d-amino acids with bulky side chains (d-Lys, d-Asn, d-Phe, d-Tyr, d-Trp, and d-Leu) increased from 2.4 to 7.3 times. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Russian Chemical Bulletin Springer Journals

Mutant d-amino acid oxidase with higher catalytic efficiency toward d-amino acids with bulky side chains

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References (17)

Publisher
Springer Journals
Copyright
Copyright © 2012 by Springer Science+Business Media New York
Subject
Chemistry; Chemistry/Food Science, general; Organic Chemistry; Inorganic Chemistry
ISSN
1066-5285
eISSN
1573-9171
DOI
10.1007/s11172-012-0193-4
Publisher site
See Article on Publisher Site

Abstract

d-Amino acid oxidase from the yeast Trigonopsis variabilis (TvDAAO) is widely used in fine organic synthesis, including the preparation of unnatural l-amino acids and α-keto acids. The analysis of the three-dimensional structure of TvDAAO was carried out with the aim of producing the enzyme specific to d-amino acids with bulky side chains. The analysis revealed the residue Phe54 at the entrance to the active site, which controls the substrate access to this site. The residue Phe54 was replaced by residues Ala, Ser, and Tyr. The cultivation of recombinant E. coli strains expressing TvDAAO mutants showed that the mutein with the Phe54Ala substitution had very low stability. Thus, the inactivation of the enzyme occured within 10 min after the cell disruption. The Phe54Ser TvDAAO and Phe54Tyr TvDAAO mutants were obtained as homogeneous preparations, and their thermal stability and catalytic properties were investigated. The introduction of Phe54Ser and Phe54Tyr substitutions resulted in additional stabilization of the protein macromolecule compared to the wild-type TvDAAO. Thus, the half-inactivation time for the mutant enzymes at 54 °C increased by a factor of 1.5 and 2, respectively. As in the case of wild-type TvDAAO, the thermal inactivation of the muteins proceeds via a two-step dissociative mechanism. The introduction of mutations led to a strong change in the substrate specificity profile. The mutants have no activity toward a series of d-amino acids (Phe54Ser TvDAAO toward d-Ala, d-Ser, d-Val, and d-Thr; Phe54Tyr TvDAAO toward d-Ser, d-Tyr, d-Thr, and d-Lys). The catalytic efficiency (the k cat/K M ratio) of the Phe54Ser TvDAAO mutant toward d-amino acids with bulky side chains (d-Lys, d-Asn, d-Phe, d-Tyr, d-Trp, and d-Leu) increased from 2.4 to 7.3 times.

Journal

Russian Chemical BulletinSpringer Journals

Published: Jun 18, 2013

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