Cloning and sequencing of the genes involved in the conversion of 5-substituted hydantoins to the corresponding L-amino acids from the native plasmid of Pseudomonas sp. strain NS671

A DNA fragment from Microbacterium liquefaciens AJ 3912, containing the genes responsible for the conversion of 5-substituted-hydantoins to -amino acids, was cloned in Escherichia coli and sequenced. Seven open reading frames (hyuP, hyuA, hyuH, hyuC, ORF1, ORF2, and ORF3) were identified on the 7.5 kb fragment. The deduced amino acid sequence encoded by the hyuA gene included the N-terminal amino acid sequence of the hydantoin racemase from M. liquefaciens AJ 3912. The hyuA, hyuH, and hyuC genes were heterologously expressed in E. coli; their presence corresponded with the detection of hydantoin racemase, hydantoinase, and N-carbamoyl -amino acid amido hydrolase enzymatic activities respectively. The deduced amino acid sequences of hyuP were similar to those of the allantoin (5-ureido-hydantoin) permease from Saccharomyces cerevisiae, suggesting that hyuP protein might function as a hydantoin transporter.

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“…Such hyu gene clusters have also been observed in Pseudomonas sp. NS761, 17,18) A. aurescens DSM 3747, 19) and Agrobacterium sp. IP I-671.…”

Section: Discussionmentioning

confidence: 99%

Molecular Cloning and Expression of thehyuGenes fromMicrobacterium liquefaciensAJ 3912, Responsible for the Conversion of 5-Substituted Hydantoins to α-Amino Acids, inEscherichia coli

Suzuki

Takenaka

Onishi

et al. 2005

Bioscience, Biotechnology, and Biochemistry

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“…However, a DNA fragment containing the gene of the non-stereospecific hydantoin amidohydrolase of Pseudomonus sp. NS671 was cloned and analyzed [40]. The enzyme consists of two different subunits; the large subunit and the small subunit of the enzyme are encoded in different open reading frames, close together, and are translationally coupled.…”

Section: Discussionmentioning

confidence: 99%

Purification and Characterization of an ATP‐dependent Amidohydrolase, N‐methylhydantoin Amidohydrolase, from Pseudomonas putida 77

Ogawa

Kim

Nirdnoy

et al. 1995

European Journal of Biochemistry

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N-Methylhydantoin amidohydrolase, an ATP-dependent amidohydrolase involved in microbial degradation of creatinine, was purified 70-fold to homogeneity, with a 62% overall recovery, and was crystallized from Pseudomonas putida 77. The enzyme has a relative molecular mass of 300000. It is a tetramer of two identical small subunits (Mr 70000) and two identical large subunits (M, 80000). The enzyme requires ATP for the amidohydrolysis of N-methylhydantoin and vice versa. Mg2+, Mn2+ or Co2+, and K', NK' , Rb+ or Cs+, were absolutely required concomitantly for the enzyme activity as divalent and monovalent cations, respectively. The K , and V,,, values for N-methylhydantoin were 32 pM and 9.0 pmol . min-' . mg protein-'. The hydrolysis of amide compounds and coupled hydrolysis of ATP were observed with hydantoin, ~~-5-methylhydantoin, glutarimide and succimide in addition to N-methylhydantoin. 2-Pyrrolidone, 2-oxazolidone, 8-valerolactam, 2,4-thiazolidinedione, 2-imidazolidone, 0-5-oxoproline methyl ester, DL-5-oxoproline methyl ester, and naturally occurring pyrimidine compounds, i.e. dihydrouracil, dihydrothymine, uracil, and thymine, effectively stimulated ATP hydrolysis by the enzyme without undergoing detectable self-hydrolysis.Keywords. N-Methylhydantoin amidohydrolase ; ATP-dependent amidohydrolase ; creatinine metabolism ; Pseudomonas putida.An ATP-dependent amidohydrolase, N-methylhydantoin amidohydrolase, which catalyzes the reaction presented in Scheme 1, was first found in Pseudomonasputidu 77 [I, 21. The enzyme catalyzes the second step in the degradation route from creatinine to glycine, via N-methylhydantoin, N-carbamoylsarcosine, and sarcosine as successive intermediates [l-91. NMethylhydantoin amidohydrolase resembles dihydropyrimidinase, which is widely distributed from microorganisms to mammals [lo-161, in that both enzymes hydrolyze hydantoin compounds. In contrast to N-methylhydantoin amidohydrolase, however, dihydropyrimidinase does not require ATP for the hydrolysis of its substrates.Enzymes that catalyze this type of ATP-dependent amidohydrolysis reaction include 5-oxoprolinase [17-211, urea amidolyase [22, 231, L-isomer-specific hydantoinase [24] and non-stereospecific hydantoinase [25], in addition to N-methylhydantoin amidohydrolase. Through extensive studies by Meister and coworkers, it has been shown that rat kidney 5-oxoprolinase is involved in the metabolism of glutathione [26], and that phosphorylation of the substrate is involved in the reaction mechanism 127-291. The rat kidney 5-oxoprolinase catalyzes the uncoupled hydrolysis of ATP in the presence of several structural analogs of 5-oxo-~-proline, such as L-2-imidazolidone-4-carboxylate, dihydroorotate, etc. [18, 21, 301, and is considered to be composed of two subunits identical in molecular mass [21]. The bacterial 5-oxoproIinase, however, easily separates into two components on purification and the overall reaction only proceeds after remixing of the components [31]. Urea amidolyase from Saccharomyces cerevisiae catalyzes success...

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“…These are the enzymes from A. aurescence DSM3747, 16) B. stearothermophilus NS714A, 17) Pseudomonas sp. NS671, 18) B. subtilis (GenBank accession number Z99120), E. coli (U82664), and H. in‰uenzae (U32740). The enzymes from A. aurescence, B. stearothermophilus and Pseudomonas sp.…”

Section: Identiˆcation Of Atc Hydrolase and Ncc Amidohydrolasementioning

confidence: 99%

“…However, ATC hydrolase had no signiˆcant similarity to hydantoinases from Pseudomonas sp. NS671 18) and P. putida, 27) and crude extracts from the transformant expressing ATC hydrolase activity did not hydrolyze hydantoins (data not shown). What kind of substrates except for ATC would be hydrolyzed by ATC hydrolase?…”

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confidence: 99%

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Identification, Cloning, and Sequencing of the Genes Involved in the Conversion ofD,L-2-Amino-Δ²-Thiazoline-4-Carboxylic Acid to …

Ohmachi¹,

Nishino²,

Kawata³

et al. 2002

Bioscience, Biotechnology, and Biochemistry

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Cloning and sequencing of the genes involved in the conversion of 5-substituted hydantoins to the corresponding L-amino acids from the native plasmid of Pseudomonas sp. strain NS671

Cited by 90 publications

References 38 publications

Molecular Cloning and Expression of thehyuGenes fromMicrobacterium liquefaciensAJ 3912, Responsible for the Conversion of 5-Substituted Hydantoins to α-Amino Acids, inEscherichia coli

Molecular Cloning and Expression of thehyuGenes fromMicrobacterium liquefaciensAJ 3912, Responsible for the Conversion of 5-Substituted Hydantoins to α-Amino Acids, inEscherichia coli

Purification and Characterization of an ATP‐dependent Amidohydrolase, N‐methylhydantoin Amidohydrolase, from Pseudomonas putida 77

Identification, Cloning, and Sequencing of the Genes Involved in the Conversion ofD,L-2-Amino-Δ²-Thiazoline-4-Carboxylic Acid to …

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Cloning and sequencing of the genes involved in the conversion of 5-substituted hydantoins to the corresponding L-amino acids from the native plasmid of Pseudomonas sp. strain NS671

Cited by 90 publications

References 38 publications

Molecular Cloning and Expression of thehyuGenes fromMicrobacterium liquefaciensAJ 3912, Responsible for the Conversion of 5-Substituted Hydantoins to α-Amino Acids, inEscherichia coli

Molecular Cloning and Expression of thehyuGenes fromMicrobacterium liquefaciensAJ 3912, Responsible for the Conversion of 5-Substituted Hydantoins to α-Amino Acids, inEscherichia coli

Purification and Characterization of an ATP‐dependent Amidohydrolase, N‐methylhydantoin Amidohydrolase, from Pseudomonas putida 77

Identification, Cloning, and Sequencing of the Genes Involved in the Conversion ofD,L-2-Amino-Δ2-Thiazoline-4-Carboxylic Acid to …

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Identification, Cloning, and Sequencing of the Genes Involved in the Conversion ofD,L-2-Amino-Δ²-Thiazoline-4-Carboxylic Acid to …