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Literature DB >> 16534982

Purification and Characterization of an Enantioselective Amidase from Pseudomonas chlororaphis B23.

Abstract

An amidase produced by Pseudomonas chlororaphis B23 was purified and characterized. The purification procedure used included ammonium sulfate precipitation and hydrophobic, anion-exchange, gel filtration, and ceramic hydroxyapatite chromatography steps. This amidase has a native molecular mass of about 105 kDa and is a homodimer whose subunits have a molecular mass of 54 kDa. The enzyme exhibited maximal activity at 50(deg)C and at pH values ranging from 7.0 to 8.6. We found no evidence that metal ions were required, and the enzyme was inhibited by several thiol reagents. This amidase exhibited activity against a broad range of aliphatic and aromatic amides and exhibited enantioselectivity for several aromatic amides, including 2-phenylpropionamide (enantiomeric excess [ee] = 100%), phenylalaninamide (ee = 55%), and 2-(4-chlorophenyl)-3-methylbutyramide (ee = 96%), but not 2-(6-methoxy-2-naphthyl)propionamide (the amide form of naproxen) (ee = 0%). The characteristics of the P. chlororaphis B23 amidase are the same as the characteristics of enantioselective amidases described by Mayaux et al. (J. F. Mayaux, E. Cerbelaud, F. Soubrier, D. Faucher, and D. Petre, J. Bacteriol. 172:6764-6773, 1990; J. F. Mayaux, E. Cerbelaud, F. Soubrier, P. Yeh, F. Blanche, and D. Petre, J. Bacteriol. 173:6694-6704, 1991) and Kobayashi et al. (M. Kobayashi, H. Komeda, T. Nagasawa, M. Nishiyama, S. Horinouchi, T. Beppu, H. Yamada, and S. Shimizu, Eur. J. Biochem. 217:327-336, 1993).

Entities: Chemical Species

Year: 1995 PMID： 16534982 PMCID： PMC1388381 DOI： 10.1128/aem.61.3.998-1003.1995

Source DB: PubMed Journal: Appl Environ Microbiol ISSN： 0099-2240 Impact factor: 4.792

9 in total

Review 1. Enzymatic synthesis of acrylamide: a success story not yet over.

Authors: M Kobayashi; T Nagasawa; H Yamada
Journal: Trends Biotechnol Date: 1992-11 Impact factor: 19.536

2. Cloning and primary structure of the wide-spectrum amidase from Brevibacterium sp. R312: high homology to the amiE product from Pseudomonas aeruginosa.

Authors: F Soubrier; S Lévy-Schil; J F Mayaux; D Pétré; A Arnaud; J Crouzet
Journal: Gene Date: 1992-07-01 Impact factor: 3.688

3. Cloning and characterization of genes responsible for metabolism of nitrile compounds from Pseudomonas chlororaphis B23.

Authors: M Nishiyama; S Horinouchi; M Kobayashi; T Nagasawa; H Yamada; T Beppu
Journal: J Bacteriol Date: 1991-04 Impact factor: 3.490

4. Purification, cloning, and primary structure of an enantiomer-selective amidase from Brevibacterium sp. strain R312: structural evidence for genetic coupling with nitrile hydratase.

Authors: J F Mayaux; E Cerebelaud; F Soubrier; D Faucher; D Pétré
Journal: J Bacteriol Date: 1990-12 Impact factor: 3.490

5. The amino acid sequence of the aliphatic amidase from Pseudomonas aeruginosa.

Authors: R P Ambler; A D Auffret; P H Clarke
Journal: FEBS Lett Date: 1987-05-11 Impact factor: 4.124

6. Purification, cloning, and primary structure of a new enantiomer-selective amidase from a Rhodococcus strain: structural evidence for a conserved genetic coupling with nitrile hydratase.

Authors: J F Mayaux; E Cerbelaud; F Soubrier; P Yeh; F Blanche; D Pétré
Journal: J Bacteriol Date: 1991-11 Impact factor: 3.490

7. Production of S-(+)-2-phenylpropionic acid from (R,S)-2-phenylpropionitrile by the combination of nitrile hydratase and stereoselective amidase in Rhodococcus equi TG328.

Authors: T Gilligan; H Yamada; T Nagasawa
Journal: Appl Microbiol Biotechnol Date: 1993-08 Impact factor: 4.813

8. Measurement of protein using bicinchoninic acid.

Authors: P K Smith; R I Krohn; G T Hermanson; A K Mallia; F H Gartner; M D Provenzano; E K Fujimoto; N M Goeke; B J Olson; D C Klenk
Journal: Anal Biochem Date: 1985-10 Impact factor: 3.365

9. Amidase coupled with low-molecular-mass nitrile hydratase from Rhodococcus rhodochrous J1. Sequencing and expression of the gene and purification and characterization of the gene product.

Authors: M Kobayashi; H Komeda; T Nagasawa; M Nishiyama; S Horinouchi; T Beppu; H Yamada; S Shimizu
Journal: Eur J Biochem Date: 1993-10-01

9 in total

11 in total

1. Identification of active sites in amidase: evolutionary relationship between amide bond- and peptide bond-cleaving enzymes.

Authors: M Kobayashi; Y Fujiwara; M Goda; H Komeda; S Shimizu
Journal: Proc Natl Acad Sci U S A Date: 1997-10-28 Impact factor: 11.205

2. Purification and properties of an amidase from Rhodococcus erythropolis MP50 which enantioselectively hydrolyzes 2-arylpropionamides.

Authors: B Hirrlinger; A Stolz; H J Knackmuss
Journal: J Bacteriol Date: 1996-06 Impact factor: 3.490

3. Formation of a Chiral Hydroxamic Acid with an Amidase from Rhodococcus erythropolis MP50 and Subsequent Chemical Lossen Rearrangement to a Chiral Amine.

Authors: B Hirrlinger; A Stolz
Journal: Appl Environ Microbiol Date: 1997-09 Impact factor: 4.792

4. Purification, characterization, gene cloning and nucleotide sequencing of D: -stereospecific amino acid amidase from soil bacterium: Delftia acidovorans.

Authors: Tipparat Hongpattarakere; Hidenobu Komeda; Yasuhisa Asano
Journal: J Ind Microbiol Biotechnol Date: 2005-06-16 Impact factor: 3.346

5. Enantioselective hydrolysis of (R)-2, 2-dimethylcyclopropane carboxamide by immobilized cells of an R-amidase-producing bacterium, Delftia tsuruhatensis CCTCC M 205114, on an alginate capsule carrier.

Authors: Yuan-Shan Wang; Ren-Chao Zheng; Jian-Miao Xu; Zhi-Qiang Liu; Feng Cheng; Zhi-Hua Feng; Li-Ling Liu; Yu-Guo Zheng; Yin-Chu Shen
Journal: J Ind Microbiol Biotechnol Date: 2010-02-23 Impact factor: 3.346

10. Physical, biochemical, and immunological characterization of a thermostable amidase from Klebsiella pneumoniae NCTR 1.

Authors: M S Nawaz; A A Khan; D Bhattacharayya; P H Siitonen; C E Cerniglia
Journal: J Bacteriol Date: 1996-04 Impact factor: 3.490