The DmpA aminopeptidase from Ochrobactrum anthropi LMG7991 is the prototype of a new terminal nucleophile hydrolase family

Fanuel, Laurence; Goffin, Colette; Cheggour, Abdelatif; Devreese, Bart; Driessche, Gonzalez Van; Joris, Bernard; Beeumen, J. Van; Frère, Jean‐Marie

doi:10.1042/0264-6021:3410147

Cited by 40 publications

(44 citation statements)

References 37 publications

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“…The results of our inhibition studies revealed that BapA was inhibited neither by the protease inhibitors phenylmethylsulfonyl fluoride and EDTA nor by divalent metal ions and reducing agents. No inhibitor has been found so far for DmpA from O. anthropi (9). BapA remains active even in the presence of 50% (vol/vol) ethylene glycol during purification.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, we named the enzyme BapA for ␤-peptidyl aminopeptidase. DmpA from O. anthropi is described as the prototype of a new family of Ntn hydrolases (23), which are activated by a self-catalyzed protein splicing process between two conserved residues to open access to the catalytic N-terminal residue (serine, threonine, or cysteine) (9). The two subunits of DmpA from O. anthropi have molecular masses of 26.6 and 13.7 kDa, respectively; this corresponds well with the molecular masses of the BapA subunits.…”

Section: Discussionmentioning

confidence: 99%

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A Novel β-Peptidyl Aminopeptidase (BapA) from Strain 3-2W4 Cleaves Peptide Bonds of Synthetic β-Tri- and β-Dipeptides

et al. 2005

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A novel bacterial strain that was capable of growing on the ␤-tripeptide H-␤hVal-␤hAla-␤hLeu-OH as the sole carbon and nitrogen source was isolated from an enrichment culture. On the basis of physiological characterization, partial 16S rRNA sequencing, and fatty acid analysis, strain 3-2W4 was identified as a member of the family Sphingomonadaceae. Growth on the ␤-tripeptide and the ␤-dipeptide H-␤hAla-␤hLeu-OH was observed, and emerging metabolites were characterized. Small amounts of a persisting metabolite, the N-acetylated ␤-dipeptide, were identified in both media. According to dissolved organic carbon measurements, 74 to 80% of the available carbon was dissimilated. The ␤-peptide-degrading enzyme was purified from the crude cell extract of cells from strain 3-2W4 grown on complex medium. The enzyme was composed of two subunits, and the N-terminal sequences of both were determined. With this information, it was possible to identify the complete nucleotide sequence and to deduce the primary structure of the gene bapA. The gene encoded a ␤-peptidyl aminopeptidase (BapA) of 402 amino acids that was synthesized as preprotein with a signal sequence of 29 amino acids. The enzyme was cleaved into two subunits (residues 30 to 278 and 279 to 402). It belonged to the N-terminal nucleophile (Ntn) hydrolase superfamily.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

A Novel β-Peptidyl Aminopeptidase (BapA) from Strain 3-2W4 Cleaves Peptide Bonds of Synthetic β-Tri- and β-Dipeptides

et al. 2005

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“…The 10 N-terminal residues obtained by protein sequencing were identical to those deduced from the nucleotide sequence starting from Thr267, demonstrating that NylC A and NylC K were subjected to specific cleavage at Asn266/Thr267, which has previously been identified as a cleavage site in NylC p2 (4). The observed processing is a specific feature of the N-terminal nucleophile (Ntn) hydrolase family, in which cleavage is performed auto-catalytically to generate two subunits (1,2,3,8).…”

Section: Fig 2 Tlc Of Various Nylon Oligomers and Reaction Productsmentioning

confidence: 99%

6-Aminohexanoate Oligomer Hydrolases from the Alkalophilic Bacteria Agromyces sp. Strain KY5R and Kocuria sp. Strain KY2

Yasuhira

Tanaka

Shibata

et al. 2007

Appl Environ Microbiol

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Alkalophilic, nylon oligomer-degrading strains, Agromyces sp. and Kocuria sp., were isolated from the wastewater of a nylon-6 factory and from activated sludge from a sewage disposal plant. The 6-aminohexanoate oligomer hydrolases (NylC) from the alkalophilic strains had 95.8 to 98.6% similarity to the enzyme in neutrophilic Arthrobacter sp. but had superior thermostability, activity under alkaline conditions, and affinity for nylon-related substrates, which would be advantageous for biotechnological applications.The biodegradation of unnatural synthetic compounds which have been released into the natural environment with the development of the chemical industry provides a suitable system for investigating how microorganisms evolve the enzymes essential for the degradation of such xenobiotic compounds. We have studied the degradation of by-products of the manufacture of nylon-6, namely, 6-aminohexanoate (Ahx) oligomers (nylon oligomers), by Arthrobacter sp. strain KI72 (formerly called a Flavobacterium sp. [see Addendum]) as a model system (9, 10). We found that three enzymes, the Ahx cyclicdimer hydrolase (NylA) (6), the Ahx dimer hydrolase (NylB) (7,12,13), and the Ahx endo-type-oligomer hydrolase (NylC) (4, 11), are responsible for the degradation of the nylon oligomers ( Fig. 1).Nylon oligomers are discharged from nylon factories as an alkaline solution. However, the optimum pH for the growth of strain KI72 is approximately 7, and thus far, no alkalophilic, nylon oligomer-degrading strains have been isolated. Therefore, if such microorganisms could be isolated, they would be useful for the direct treatment of wastes from nylon-6 factories. In addition, comparative analyses for the responsible enzymes are expected to provide information on the evolutionary and functional divergence of these enzymes. In this paper, we report the isolation of alkalophilic, nylon oligomer-degrading bacteria, their genetic cloning, and the characterization of their nylon oligomer-degrading enzymes.Isolation of alkalophilic nylon oligomer-degrading bacteria. The nylon oligomer mixture (NOM) (Toyobo Co., Tsuruga, Japan) used is a mixture of Ahx cyclic and linear oligomers. To obtain the cyclic-oligomer-enriched fraction used for bacterial screening, the NOM was extensively washed with hot water on filter paper to remove water-soluble linear oligomers. After being dried, washed NOM (NOM-W) was obtained. Thin-layer chromatography (TLC) analysis revealed that no free amino groups were detected by ninhydrin in NOM-W, which indicates the absence of the linear oligomer, while several spots appeared in the original NOM (Fig. 2C).Microorganisms included in activated sludge from a sewage disposal plant (sample 1) and in wastewater from a nylon-6 factory (sample 2) were enriched in NOM10 medium (0.4% NOM-W, 0.2% Na 3 PO 4 ⅐ 12H 2 O, 0.1% K 2 HPO 4 , 0.26% Na 2 CO 3 , 0.2% NaHCO 3 , 0.02% MgSO 4 ⅐ 7H 2 O, 0.5% NaCl, 0.01% yeast extract, pH 10). The cultures were diluted with sterilized water and plated on LB-NOM10 plates (LB plates containing...

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“…DmpA is an aminopeptidase that hydrolyzes peptides, with a preference for N-terminal residues in an L-configuration (L-Ala-Gly-Gly) and also amide or ester derivatives of D-Ala (19). BapA hydrolyzes ␤-oligopeptides and mixed ␤/␣-oligopeptides with a ␤-amino acid residue at the N terminus (20).…”

Section: Subunit Structure and Function Relationship With Other N-tn mentioning

confidence: 99%

Three-dimensional Structure of Nylon Hydrolase and Mechanism of Nylon-6 Hydrolysis

Negoro

Shibata

Tanaka

et al. 2012

Journal of Biological Chemistry

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Background: Biodegradation of polyamides is important from the industrial and environmental point of view. Results: We identified the catalytic residue of nylon hydrolase as Thr-267 and enhanced the protein thermostability by 36°C (T m ϭ 88°C) by introducing mutations at the subunit interfaces of tetramer structure. Conclusion:We revealed the mechanism of nylon-6 hydrolysis. Significance: We established an approach to biodegrade polymeric nylon-6.

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The DmpA aminopeptidase from Ochrobactrum anthropi LMG7991 is the prototype of a new terminal nucleophile hydrolase family

Cited by 40 publications

References 37 publications

A Novel β-Peptidyl Aminopeptidase (BapA) from Strain 3-2W4 Cleaves Peptide Bonds of Synthetic β-Tri- and β-Dipeptides

A Novel β-Peptidyl Aminopeptidase (BapA) from Strain 3-2W4 Cleaves Peptide Bonds of Synthetic β-Tri- and β-Dipeptides

6-Aminohexanoate Oligomer Hydrolases from the Alkalophilic Bacteria Agromyces sp. Strain KY5R and Kocuria sp. Strain KY2

Three-dimensional Structure of Nylon Hydrolase and Mechanism of Nylon-6 Hydrolysis

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