Your search keyword '"Kenji Soda"' showing total 515 results

1. Molecular Aspects of Enzyme Catalysis

Author

Toshio Fukui, Kenji Soda, Toshio Fukui, Kenji Soda

Published

2008

2. Correcting for the effect of ambient pressure fluctuations on measured output from a linear accelerator with a sealed monitor chamber

Author

Masafumi Takagi, Yuichiro Narita, Hongbo Chai, Tomomi Kimura, Kenji Soda, and Keiichi Kattou

Subjects

General Nursing

Abstract

Objective. Ambient pressure fluctuations deform the walls of a sealed monitor chamber in a linear accelerator (LINAC) and affect the output. This study retrospectively quantified the output variations accompanying ambient pressure fluctuations in a LINAC equipped with a sealed monitor chamber and introduced a novel approach of calculating the adjusted output free from the effect of ambient pressure fluctuations. Approach. The output data for the 6 MV and 10 MV X-rays measured between March 2014 and September 2015 were analysed. This period was further divided into four sub-periods according to the output calibrations. Output behaviours were modelled using multiple regression analysis with ambient pressure and the time elapsed since the last calibration as explanatory variables. The output variations accompanying ambient pressure fluctuations were calculated using regression parameters and were subtracted from the measured outputs to obtain the adjusted outputs. Main results. The partial regression coefficients for ambient pressure varied from −2.3 × 10−4 to −1.8 × 10−4 cGy/MU/hPa for 6 MV and from −1.9 × 10−4 to −1.2 × 10−4 cGy/MU/hPa for 10 MV X-rays. These partial regression coefficient values were comparable among the four sub-periods and the two x-ray energies, respectively. These findings suggest that the degree of the output variations accompanying ambient pressure fluctuations is independent of x-ray energies and is determined by the internal structure of the chamber and the pressure differential between the inside and outside of the chamber. The adjusted outputs showed a better fit with the time trend line than the measured outputs. Significance. This study demonstrates a novel procedure for obtaining the adjusted outputs and allows precise observation of the output behaviours of a LINAC equipped with a sealed monitor chamber. Combined observation of the measured and adjusted output facilitates the detection of output anomalies, thus contributing to quality control (QC) of LINACs.

Published

2023

3. [Efficient Commissioning of the Radiotherapy Treatment Planning System with the Golden Beam Data]

Author

Etsuo Kunieda, Kenji Soda, Tomoko Kikuchi, Yukio Fujita, Tomoyuki Hiroki, and Shota Maehira

Subjects

business.industry, Radiotherapy Planning, Computer-Assisted, Calculation algorithm, Truebeam, Electrons, Radiotherapy Dosage, General Medicine, Radiotherapy treatment planning, Homogeneous, Medicine, Humans, Radiotherapy, Intensity-Modulated, Particle Accelerators, Radiation treatment planning, Nuclear medicine, business, Monte Carlo Method, Beam (structure), Percentage depth dose, Algorithms, Medical systems

Abstract

Commissioning of a linear accelerator (Linac) and treatment planning systems (RTPs) for clinical use is complex and time-consuming, typically 3-4 months in total. However, based on clinical needs and economics, hospitals desire early clinical starts for patients, and various studies have been conducted for shortening the preparation period. One of the methods to shorten the period is using golden beam data (GBD). The purpose of this study was to shorten the commissioning period without reducing accuracy and to simplify commissioning works while improving safety. We conducted commissioning of the RTPs before installing the Linac using GBD, and carried out verification immediately after the acceptance test. We used TrueBeam STx (Varian Medical Systems) and Eclipse (ver. 13.7, Varian Medical Systems) for RTPs and anisotropic analysis algorithm (AAA) and AcurosXB (AXB) for calculation algorithms. The difference between GBD and the measured beam data was 0.0 ± 0.2% [percentage depth dose (PDDs) ] and -0.1 ± 0.2% (Profiles) with X-ray, and -1.2 ± 1.3% (PDDs) with electrons. The difference between the calculated dose and the measured dose was 0.1 ± 0.3% (AAA) and 0.0 ± 0.3% (AXB) under homogeneous conditions, and 0.7 ± 1.4% (AAA) and 0.6 ± 1.1% (AXB) under heterogeneous conditions. We took 43 days from the end of the acceptance test to the start of clinical use. We found that the preparation period for clinical use can be shortened without reducing the accuracy, by thinning out the number of measurement items using GBD.

Published

2019

4. A new amino acid racemase with threonine alpha-epimerase acitivity from Pseudomonas putida: purification and characterization

Author

Young-Hee Lim, Kumio Yokoigawa, Nobuyoshi Esaki, and Kenji Soda

Subjects

Pseudomonas putida -- Analysis, Proton magnetic resonance -- Usage, Biological sciences

Abstract

The enzyme alanine racemase, catalyzing the epimerization of threonine in Pseudomonas putida ATCC 17642 cells grown in a nitrogen medium which contains D-threonine is purified by polyacrylamide gel electrophoresis at a temperature ranging from 0 to 5 degrees centigrade. The enzyme is characterized by a total molecular weight of 82,000 and comprises two subunits of equal molecular weight, 41,000. The absorption spectra exhibited by the enzyme illustrates the absorption maxima at 280 nm and 420 nm. The enzyme's cofactor is pyridoxal 5'-phosphate. The enzymatic action of the enzyme resembles that of amino acid racemase.

Published

1993

5. Gene cloning, recombinant expression, purification and characterization of l-methionine decarboxylase from Streptomyces sp. 590

Author

Kenji Inagaki, Toshihide Okajima, Yuu Hirose, Takashi Tamura, Michiko Nemoto, Akane Okada, Kenji Soda, Kumiko Yamamoto, Tomomi Okugochi, Junko Inagaki, Daizou Kudou, Masaya Hayashi, and Chika Kusaka

Subjects

0301 basic medicine, Decarboxylation, Carboxy-Lyases, Molecular cloning, medicine.disease_cause, Biochemistry, Streptomyces, law.invention, Cell Line, Substrate Specificity, 03 medical and health sciences, Methionine, Bacterial Proteins, law, Cell Line, Tumor, Enzyme Stability, medicine, Humans, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Escherichia coli, Peptide sequence, Phylogeny, Cell Proliferation, chemistry.chemical_classification, biology, Base Sequence, Propylamines, Chemistry, Temperature, General Medicine, Carbon Dioxide, Hydrogen-Ion Concentration, biology.organism_classification, Molecular biology, Recombinant Proteins, Amino acid, Molecular Weight, Kinetics, 030104 developmental biology, Cell culture, Spectrophotometry, Pyridoxal Phosphate, Recombinant DNA, Electrophoresis, Polyacrylamide Gel, Protein Multimerization

Abstract

l-Methionine decarboxylase (MetDC) from Streptomyces sp. 590 depends on pyridoxal 5'-phosphate and catalyzes the non-oxidative decarboxylation of l-methionine to produce 3-methylthiopropylamine and carbon dioxide. MetDC gene (mdc) was determined to consist of 1,674 bp encoding 557 amino acids, and the amino acid sequence is similar to that of l-histidine decarboxylases and l-valine decarboxylases from Streptomyces sp. strains. The mdc gene was cloned and recombinant MetDC was heterologously expressed by Escherichia coli. The purification of recombinant MetDC was carried out by DEAE-Toyopearl and Ni-NTA agarose column chromatography. The recombinant enzyme was homodimeric with a molecular mass of 61,000 Da and showed optimal activity between 45 to 55 °C and at pH 6.6, and the stability below 30 °C and between pH 4.6 to 7.0. l-Methionine and l-norleucine were good substrates for MetDC. The Michaelis constants for l-methionine and l-norleucine were 30 and 73 mM, respectively. The recombinant MetDC (0.50 U/ml) severely inhibited growth of human tumour cells A431 (epidermoid ovarian carcinoma cell line) and MDA-MB-231 (breast cancer cell line), however showed relatively low cytotoxicity for human normal cell NHDF-Neo (dermal fibroblast cell line from neonatal foreskin). This study revealed the properties of the gene and the protein sequence of MetDC for the first time.

Published

2016

6. A Novel Type of D-Mannitol Dehydrogenase from Acetobacter xylinum: Occurrence, Purification, and Basic Properties

Author

Junji Nakai, Kenji Soda, Tadao Oikawa, and Yasuyuki Tsukagawa

Subjects

chemistry.chemical_classification, Cytochrome, biology, Chemistry, Cytochrome c, Organic Chemistry, Dehydrogenase, General Medicine, biology.organism_classification, Applied Microbiology and Biotechnology, Biochemistry, Acetobacteraceae, Analytical Chemistry, Acetic acid, chemistry.chemical_compound, Enzyme, biology.protein, Acetic acid bacteria, Molecular Biology, Biotechnology, Nuclear chemistry, Mannitol 2-Dehydrogenase

Abstract

We purified a novel type of D-mannitol dehydrogenase, which contains a c-type cytochrome and an unknown chromophore in the soluble fraction of an acetic acid bacterium, Acetobacter xylinum KU-1, to homogeneity. The enzyme showed the maximum activity at pH 5 and 40°C. It was stable up to 60°C at pH 6, and was inhibited by Hg(2+) and p-quinone (Ki = 0.18 mm). The molecular weight of the enzyme was about 140,000, and those of the subunits were 69,000, 51,000, and 20,000; the enzyme is hetero-trimeric and contained 8 g-atoms of Fe per mole. The α-helix content was estimated to be about 52.9%. The enzyme catalyzed phenazine methosulfate dependent oxidation of d-mannitol with an apparent Km of 98 μm (for d-mannitol) and Vmax of 213 μmol/min/mg. The reduced form of the enzyme showed the absorption maxima at 386, 416, 480, 518, 550, and 586 nm, which are attributable to a c-type cytochrome in the enzyme.

Published

2016

7. Role of Divalent Metal Ions on Activity and Stability of Thermostable Dipeptidase from Bacillus stearothermophilus

Author

Hong-Yon Cho, Kenji Soda, and Katsuyuki Tanizawa

Subjects

chemistry.chemical_classification, Dipeptidase, biology, Stereochemistry, Metal ions in aqueous solution, Organic Chemistry, General Medicine, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Catalysis, Divalent, Metal, chemistry.chemical_compound, Enzyme, chemistry, visual_art, visual_art.visual_art_medium, biology.protein, Guanidine, Molecular Biology, Biotechnology, Thermostability

Abstract

Thermostable dipeptidase from Bacillus stearothermophilus, a typical metalloenzyme containing 1.0g atom of Zn per mole of subunit of the dimeric enzyme was markedly activated by exogenous divalent metal ions such as Mn(2+), Co(2+), and Cd(2+) . In contrast, several others including Ba(2+), Hg(2+), and Cu(2+) considerably inhibited the enzyme, even the inherent metal, Zn(2+), being slightly inhibitory. To study the metal-binding properties of this dipeptidase, the enzyme was completely resolved to the inactive, Zn-free apoenzyme by treatment with EDTA in the presence of guanidine hydrochloride in a weakly acidic buffer. The apoenzyme was readily reconstituted by incubation with either Zn(2+), Mn(2+), or Co(2+), restoring the catalytic activity. The Mn-reconstituted enzyme had nearly twice the activity of the original Zn-enzyme. Combined with kinetic analyses of reconstitution of the apoenzyme with metal ions, these results show that the enzyme has two non-identical metal-binding sites, each with a different property. Furthermore, substitution of Mn(2+) or Co(2+) for Zn(2+) considerably lowered the thermostability of the enzyme without affecting the overall conformation of the enzyme protein, suggesting that the prosthetic Zn is playing dual roles in conformational stability and catalysis of the thermostable dipeptidase.

Published

2016

8. Alanine Racemase from an Acidophile, Acidiphilium organovorum: Purification and Characterization

Author

Kenji Inagaki, Kenji Soda, Takashi Tamura, Teck Keong Seow, and Hidehiko Tanaka

Subjects

Alanine, chemistry.chemical_classification, biology, Stereochemistry, Organic Chemistry, General Medicine, Applied Microbiology and Biotechnology, Biochemistry, Cofactor, Analytical Chemistry, chemistry.chemical_compound, Hydroxylamine, Enzyme, chemistry, Acidophile, Alanine racemase, biology.protein, lipids (amino acids, peptides, and proteins), Pyridoxal phosphate, Molecular Biology, Pyridoxal, Biotechnology

Abstract

An alanine racemase (EC 5.1.1.1) from an acidophilic heterotrophic bacterium, Acidiphilium organovorum 13H, was purified and characterized. The enzyme had a dimeric structure with identical subunits of M r 33,000 each. Although A. organovorum 13H is an acidophile, the enzyme had its maximum velocity at pH 9, corresponding to its location in the cytoplasm. Activity was maximum between 50 and 60°C. For an enzyme from a mesophile, it was stable to heat, showing no loss of activity after a 30-min incubation at 65°C. The enzyme needed pyridoxal 5'-phosphate (PLP) as a cofactor for its activity, as seen from the loss of activity upon dialysis against PLP-free buffer containing hydroxylamine and its absorption maximum at 420 nm. Activity was ihhibited by common inhibitors of PLP-dependent enzymes. PLP content studies found that 1 mole of enzyme contained 2 moles of PLP. The enzyme catalyzed the symmetric reversible racemization of alanine exclusively.

Published

2016

9. Production of D-Glutamate from L-Glutamate with Glutamate Racemase and L-Glutamate Oxidase

Author

Kazuhiro Yamade, Mayumi Watanabe, Hitoshi Kusakabe, Tadao Oikawa, Kenji Soda, and Hidemi Makiura

Subjects

chemistry.chemical_classification, Oxidase test, Chromatography, Immobilized enzyme, Organic Chemistry, Glutamate receptor, General Medicine, Isomerase, Bacillus subtilis, Biology, biology.organism_classification, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Enzyme, chemistry, Glutamate racemase, L-glutamate oxidase, Molecular Biology, Biotechnology

Abstract

We studied production of D-glutamate from L-glutamate using a bioreactor consisting of two columns of sequentially connected immobilized glutamate racemase (EC 5.1.1.3, from Bacillus subtilis IFO 3336) and L-glutamate oxidase (EC 1.4.3.11, from Streptomyces sp. X119-6): L-glutamate was racemized by the glutamate racemase column, and then L-glutamate was oxidized by the L-glutamate oxidase column. Consequently only D-glutamate remained, and was easily separated from the α-ketoglutarate formed by anion-exchange chromatography. Both enzymes were highly stabilized by immobilization. The pH and temperature optima of immobilized glutamate racemase (pH 8, 40°C) were similar to those of immobilized L-glutamate oxidase (pH 7, 50°C). Accordingly, we connected the two columns tandemly to do both enzyme reactions under the same conditions. Actually 4.5 μmol of D-glutamate was produced and isolated from 10 μmol of L-glutamate, about 90% of the theoretical yield.

Published

2016

10. Purification and Characterization of Aldehyde Reductase from Leuconostoc dextranicum

Author

Kaoru Nakamura, Hiroyuki Sumi, Kenji Soda, Akinobu Matsuyama, Nobuyoshi Esaki, and Nobuyoshi Nakajima

Subjects

chemistry.chemical_classification, biology, Organic Chemistry, Leuconostoc dextranicum, General Medicine, Reductase, biology.organism_classification, Streptococcaceae, Applied Microbiology and Biotechnology, Biochemistry, Aldehyde, Analytical Chemistry, Enzyme, chemistry, Substrate specificity, Molecular Biology, Bacteria, Biotechnology, Aldehyde Reductase

Published

2016

11. [Untitled]

Author

Kenji SODA

Published

2012

12. Synthesis of super-high-molecular-weight poly-γ-glutamic acid by Bacillus subtilis subsp. chungkookjang

Author

Hisaaki Nakamura, Yoon-Ho Choi, Moon-Hee Sung, Makoto Ashiuchi, Tomomitsu Sewaki, Haruo Misono, Terumi Horiuchi, Jae-Chul Choi, Kenji Soda, Chung Park, and Kazuya Shimanouchi

Subjects

chemistry.chemical_classification, Bacillaceae, biology, Molecular mass, Chemistry, Process Chemistry and Technology, Bioengineering, Glutamic acid, Bacillus subtilis, biology.organism_classification, Polysaccharide, Biochemistry, Bacillales, Catalysis, Hydrolysis, chemistry.chemical_compound, Biosynthesis

Abstract

Poly-γ-glutamic acid (PGA) with high molecular weight is a most promising biomaterial in industrial uses; however, it generally diverse in molecular structure and co-produced with polysaccharides and various other biopolymers. In this study, it was ascertained that Bacillus subtilis subsp. chungkookjang cells are superior to B. subtilis (natto) cells as the biocatalyst for the synthesis of super-high-molecular-weight PGA (over 2000 k). We effectively purified PGA and fractionated according to its molecular weight by anion-exchange chromatography, and further developed a simple method for determination of the molecular weight of PGA on the basis of numbers of glutamate monomers generated by hydrolysis and a free amino group quantified with 1-fluoro-2,4-dinitrobenzene (FDNB). The molecular weight determination with FDNB was available even for a super-high-molecular-weight PGA, e.g. the 2000-k polymer. Super-high-molecular-weight PGAs (average 2000 k and 7000 k), which were synthesized by the use of B. subtilis subsp. chungkookjang cells in the presence of a high concentration of ammonium sulfate, were rich in l -glutamate rather than in the d -enantiomer.

Published

2005

13. An efficient access to both enantiomers of pipecolic acid

Author

Minoru Yoshida, Saori Haranaka, Binoy Jose, Norikazu Nishino, Mitsuaki Moriguchi, Kenji Soda, Tamaki Kato, and Louis A. Watanabe

Subjects

Inorganic Chemistry, chemistry.chemical_compound, chemistry, Stereochemistry, Organic Chemistry, Intramolecular cyclization, Physical and Theoretical Chemistry, Enantiomer, Catalysis, Pipecolic acid

Abstract

An efficient and convenient synthesis of both enantiomers of pipecolic acid has been developed using the intramolecular cyclization of 2-amino-6-bromohexanoic acid under mild conditions.

Published

2005

14. Enzymatic Synthesis of High-Molecular-Mass Poly-γ-Glutamate and Regulation of Its Stereochemistry

Author

Chung Park, Kazuya Shimanouchi, Haruo Misono, Hisaaki Nakamura, Makoto Ashiuchi, Kenji Soda, Tohru Kamei, and Moon-Hee Sung

Subjects

Time Factors, Protein Conformation, Stereochemistry, Stereoisomerism, Bacillus subtilis, Applied Microbiology and Biotechnology, Substrate Specificity, Divalent, chemistry.chemical_compound, Glutamate synthase, Magnesium, chemistry.chemical_classification, Ecology, Molecular mass, biology, Glutamate Synthase, Polyglutamic acid, Substrate (chemistry), Hydrogen-Ion Concentration, Physiology and Biotechnology, biology.organism_classification, Molecular Weight, Zinc, Enzyme, Polyglutamic Acid, chemistry, biology.protein, Food Science, Biotechnology

Abstract

For the first time, we succeeded in synthesizing in vitro poly-γ-glutamate (PGA) with high molecular masses (>1,000 kDa) by the use of enzyme-associated cell membranes from Bacillus subtilis subsp. chungkookjang . The activity for PGA synthesis, however, was readily lost in the presence of critical concentrations of detergents tested in micelles. The optimum pH for the reaction was found to be ∼7.0. We examined the effects of some divalent cations on PGA synthesis and found that Mg 2+ was essential in catalysis and that Zn 2+ additionally boosted the activity. In contrast, Fe 2+ and Ca 2+ acted as inhibitors. Mn 2+ did not apparently influence the in vitro formation of PGA. dl -Glutamate ( d isomer content, 60 to 80%) apparently served as the best substrate; d -Glutamate was preferable to the l isomer as a substrate. When d - and l -glutamate were used for the reaction, the elongated chains of PGAs were composed of the d - and l -isomers, respectively. Our results suggest that the stereochemical properties of enzymatically synthesized PGAs substantially depend on the stereochemistry ( dl ratio) of glutamate as the substrate. Furthermore, genetic analysis indicated that all the pgsB , -C , and -A gene products, which are responsible for PGA production by B. subtilis cells, were also indispensable for enzymatic PGA synthesis.

Published

2004

15. Assay method for antitumor l-methionine γ-lyase: comprehensive kinetic analysis of the complex reaction with l-methionine

Author

Kenji Mitsushima, Hidehiko Tanaka, Kenji Inagaki, Kenji Soda, Akio Takimoto, Nobuyoshi Esaki, Shigeo Yagi, and Tomoaki Takakura

Subjects

Antimetabolites, Antineoplastic, Stereochemistry, Kinetics, Biophysics, Methanethiol, Biochemistry, Carcinoma, Lewis Lung, chemistry.chemical_compound, Methionine, Animals, Enzyme kinetics, Molecular Biology, Pyridoxal, chemistry.chemical_classification, biology, Cell Biology, Proteus, Lyase, Combinatorial chemistry, Recombinant Proteins, Enzyme assay, Butyrates, Carbon-Sulfur Lyases, Enzyme, chemistry, biology.protein

Abstract

L-Methionine gamma-lyase (EC 4.4.1.11) is a pyridoxal 5'-phosphate-dependent multifunctional enzyme. Measuring the initial velocity of alpha-ketobutyrate production by alpha,gamma-elimination of L-methionine catalyzed by L-methionine gamma-lyase is not very feasible, because the enzyme simultaneously catalyzes both gamma-replacement and alpha,gamma-elimination. To develop an accurate enzyme assay, the comprehensive enzyme kinetics needed to be elucidated by progress curve analysis on the basis of a reaction model for conversion of L-methionine to alpha-ketobutyrate, methanethiol, and ammonia with pyridoxal 5'-phosphate as a cofactor. Kinetic parameters were determined by linear transformation using an approximation of a Maclaurin series from the whole velocity of alpha-ketobutyrate production including alpha,gamma-elimination and gamma-replacement. The significance of gamma-replacement was revealed both theoretically and practically by the kinetic analysis. The enzyme activity was standardized and represented as the Vmax value taking into consideration gamma-replacement in the presence of L-methionine at 37 degrees C and pH 8.0. The novel method that we proposed is accurate, sensitive, reproducible, and linear over a wide range for the determination of L-methionine gamma-lyase activity.

Published

2004

16. A new dl-2-haloacid dehalogenase acting on 2-haloacid amides: purification, characterization, and mechanism

Author

Chung Park, Tohru Yoshimura, Tatsuo Kurihara, Kenji Soda, and Nobuyoshi Esaki

Subjects

Reaction mechanism, biology, Lactamide, Chemistry, Stereochemistry, Process Chemistry and Technology, Halogenation, Substrate (chemistry), Bioengineering, biology.organism_classification, Biochemistry, Catalysis, Pseudomonas putida, Hydrolysis, chemistry.chemical_compound, Carboxylate, Dehalogenase

Abstract

dl -2-Haloacid dehalogenase catalyzes the hydrolytic dehalogenation of d - and l -2-haloalkanoic acids to produce the corresponding l - and d -2-hydroxyalkanoic acids, respectively. We have constructed an overproduction system for dl -2-haloacid dehalogenase from Pseudomonas putida PP3 ( dl -DEX 312) and purified the enzyme to analyze the reaction mechanism. When a single turnover reaction of dl -DEX 312 was carried out in H 2 18 O by use of a large excess of the enzyme with d - or l -2-chloropropionate as a substrate, the lactate produced was labeled with 18 O . This indicates that the solvent water molecule directly attacked the substrate and that its oxygen atom was incorporated into the product. This reaction mechanism contrasts with that of l -2-haloacid dehalogenase, which has an active-site carboxylate group that attacks the substrate to displace the halogen atom. dl -DEX 312 resembles dl -2-haloacid dehalogenase from Pseudomonas sp. 113 ( dl -DEX 113) in that the reaction proceeds with a direct attack of a water molecule on the substrate. However, dl -DEX 312 is markedly different from dl -DEX 113 in its substrate specificity. We found that dl -DEX 312 catalyzes the hydrolytic dehalogenation of 2-chloropropionamide and 2-bromopropionamide, which do not serve as substrates for dl -DEX 113. dl -DEX 312 is the first enzyme that catalyzes the dehalogenation of 2-haloacid amides.

Published

2003

17. Improvement in thermostability and psychrophilicity of psychrophilic alanine racemase by site-directed mutagenesis

Author

Kenji Soda, Haruo Misono, Yoko Okubo, and Kumio Yokoigawa

Subjects

chemistry.chemical_classification, biology, Stereochemistry, Process Chemistry and Technology, Wild type, Active site, Bioengineering, Biochemistry, Catalysis, Amino acid, Enzyme, chemistry, Alanine racemase, biology.protein, Site-directed mutagenesis, Psychrophile, Thermostability

Abstract

A psychrophilic alanine racemase from Bacillus psychrosaccharolyticus has a higher catalytic activity than a thermophilic alanine racemase from Bacillus stearothermophilus even at 60 °C in the presence of pyridoxal 5′-phosphate (PLP), although the thermostability of the former enzyme is lower than that of the latter one [FEMS Microbial. Lett. 192 (2000) 169]. In order to improve the thermostability of the psychrophilic enzyme, two hydrophilic amino acid residues (Glu150 and Arg151) at a surface loop surrounding the active site of the enzyme were substituted with the corresponding residues (Val and Ala) in the B. stearothermophilus alanine racemase. The mutant enzyme (ER150,151VA) showed a higher thermostability, and a markedly lower K m value for PLP, than the wild type one. In addition, the catalytic activities at low temperatures and kinetic parameters of the two enzymes indicated that the mutant enzyme was more psychrophilic than the wild type one. Thus, the psychrophilic alanine racemase was improved in both psychrophilicity and thermostability by the site-directed mutagenesis. The mutant enzyme may be useful for the production of stereospecifically deuterated NADH and various d -amino acids.

Published

2003

18. Poly-γ-glutamate depolymerase of Bacillus subtilis: production, simple purification and substrate selectivity

Author

Makoto Ashiuchi, Takashi Yamamoto, Hisaaki Nakamura, Chung Park, Moon-Hee Sung, Tohru Kamei, Kenji Soda, Toshiharu Yagi, and Haruo Misono

Subjects

biology, Chemistry, Operon, Process Chemistry and Technology, Bioengineering, Bacillus subtilis, biology.organism_classification, medicine.disease_cause, Biochemistry, Bacillales, Molecular biology, Catalysis, Gene product, chemistry.chemical_compound, Affinity chromatography, Biosynthesis, medicine, Escherichia coli, Bacillus megaterium

Abstract

The Bacillus subtilis pgdS gene, which is located at the immediate downstream of the pgs operon for poly-γ-glutamate (PGA) biosynthesis, encodes a PGA depolymerase. The pgdS gene product shows the structural feature of a membrane-associated protein. The mature form of the gene product, identified as a B. subtilis extracellular protein, was produced in Escherichia coli clone cells. Since the mature PGA depolymerase has been modified with the histidine-tag at its C-terminus, it could be simply purified by metal-chelating affinity chromatography. This purified enzyme digested PGAs from B. subtilis ( d -glutamate content, 70%) and from Bacillus megaterium (30%) in an endopeptidase-like fashion. In contrast, PGA from Natrialba aegyptiaca, which consists only of l -glutamate, was resistant to the enzyme, suggesting that, unlike fungal PGA endo-depolymerases, the bacterial enzyme recognizes the d -glutamate unit in PGA.

Published

2003

19. Paradoxical thermostable enzymes from psychrophile: molecular characterization and potentiality for biotechnological application

Author

Tadao Oikawa, Takayuki Kazuoka, and Kenji Soda

Subjects

chemistry.chemical_classification, Ammonia-Lyases, biology, Chemistry, Process Chemistry and Technology, Aldehyde dehydrogenase, Bioengineering, biology.organism_classification, Aspartate ammonia-lyase, Biochemistry, Catalysis, Microbiology, Cytophaga, Enzyme, biology.protein, Psychrophile, Bacteria, Thermostability

Abstract

NAD(P) + -dependent aldehyde dehydrogenase (EC 1.2.1.5) and aspartase (EC 4.3.1.1) in the cells of an atypical psychrophile from Antarctic seawater, Cytophaga sp. KUC-1, were paradoxically thermostable, although they derived from a psychrophile. Both enzymes showed the highest activity at about 55 °C, and also active even under cold conditions. The enzymes contained more Ile residues than the enzymes from mesophiles. The Ile/Ile + Val + Leu ratio of the Cytophaga thermostable enzymes was much higher than that of the enzymes from mesophiles. As compared with the enzymes from other microorganisms, the Cytophaga thermostable enzymes have the structural differences in the C-terminal region of the enzymes. Therefore, the C-terminal region might be important for the paradoxical thermostability of the enzymes. The psychrophilic microorganism produces not only psychrophilic enzyme, but thermostable enzyme with psychrophilicity. Therefore, the psychrophilic microorganism is one of the candidates for isolation of novel biocatalysts, which have potential for various industrial applications.

Published

2003

20. Subunit interaction of monomeric alanine racemases from fourShigellaspecies in catalytic reaction

Author

Kenji Soda, Kumio Yokoigawa, and Yoko Okubo

Subjects

Shigella boydii, Low protein, Shigella dysenteriae, Shigella sonnei, Isomerase, Microbiology, Catalysis, Shigella flexneri, Catalytic Domain, Alanine racemase, Genetics, Enzyme Inhibitors, Molecular Biology, Alanine, Molecular mass, biology, Chemistry, Alanine Racemase, Stereoisomerism, biology.organism_classification, Kinetics, Biochemistry, Cycloserine

Abstract

Bacterial alanine racemases are classified into two types of subunit structure (monomer and homodimer). To clarify the catalytic unit of monomeric alanine racemases, we examined the apparent molecular mass of the monomeric alanine racemases from Shigella dysenteriae, Shigella boydii, Shigella flexneri, and Shigella sonnei by gel filtration in the presence of the substrate and inhibitor. The enzymes were eluted on gel filtration as a monomer of about 39,000 Da at low protein concentration and in the absence of L-alanine and D-cycloserine. An increase in the apparent molecular mass was induced by increasing the protein concentration or by adding the ligands in the elution buffer. The increase ratio depended on the ligand concentration, and the maximum apparent molecular masses of all enzymes were 60,000 and 76,000 Da in the presence of 100 mM L-alanine and 5 mM D-cycloserine, respectively. D-cycloserine may induce an inactive dimer and L-alanine may induce an intermediate between the monomer and dimer because of dynamic equilibrium. The apoenzyme also showed similar behavior in the presence of the ligands, but the increase ratios were lower than those of the holoenzymes. The Bacillus psychrosaccharolyticus alanine racemase, having a dimeric structure, showed a constant molecular mass irrespective of the absence or presence of the ligands. These results suggest that the monomeric Shigella Alr enzymes have a dimeric structure in the catalytic reaction. Substances that inhibit the subunit interaction of monomeric alanine racemases may be useful as a new type of antibacterial.

Published

2003

21. D-Arginase of Arthrobacter sp. KUJ 8602: Characterization and Its Identity with Zn2+-Guanidinobutyrase

Author

Motoki Igarashi, Kenji Soda, Noriaki Arakawa, Takayuki Kazuoka, and Tadao Oikawa

Subjects

Models, Molecular, Cations, Divalent, Stereochemistry, Molecular Sequence Data, Biology, Crystallography, X-Ray, Biochemistry, Ureohydrolases, Substrate Specificity, Enzyme activator, Sequence Homology, Nucleic Acid, Arthrobacter, Animals, Humans, Cloning, Molecular, Enzyme Inhibitors, Molecular Biology, Incubation, Peptide sequence, Guanidinobutyrase, Chelating Agents, chemistry.chemical_classification, Arginase, Sequence Homology, Amino Acid, General Medicine, biology.organism_classification, Agmatinase, Rats, Amino acid, Enzyme Activation, Molecular Weight, Zinc, Enzyme, Liver, chemistry

Abstract

D-Arginase activity was found in the cells of an isolate, Arthrobacter sp. KUJ 8602, grown in the L-arginine medium, and the enzyme was purified and characterized. Its molecular weight was estimated to be about 232,000 by gel filtration, and that of the subunit was approximately 40,000 by SDS-PAGE, suggesting that the enzyme is a homohexamer. The enzyme acted on not only D-arginine but also 4-guanidinobutyrate, 3-guanidinopropionate and even L-arginine. The V(max)/K(m) values for 4-guanidinobutyrate and D-arginine were determined to be 87 and 0.81 micro mol/min/mg/mM, respectively. Accordingly, the enzyme is regarded as a kind of guanidinobutyrase [EC 3.5.3.7]. The pH optima for 4-guanidinobutyrate and D-arginine were 9.0 and 9.5, respectively. The enzyme was inhibited competitively by 5-aminovalerate, and thiol carboxylates such as mercaptoacetate served as strong mixed-type inhibitors. The enzyme contained about 1 g-atom of firmly bound Zn(2+) per mol of subunit, and removal of the metal ions by incubation with 1,10-phenanthroline resulted in loss of activity. The inactivated enzyme was reactivated markedly by incubation with either Zn(2+) or Co(2+), and slightly by incubation with Mn(2+). The nucleotide sequence of enzyme contains an open reading frame that encodes a polypeptide of 353 amino acid residues (M(r): 37,933). The predicted amino acid sequence contains sequences involved in the binding of metal ions and the guanidino group of the substrate, which show a high homology with corresponding sequences of Mn(2+)-dependent amidinohydrolases such as agmatinase from Escherichia coli and L-arginase from rat liver, though the homology of their entire sequences is relatively low (24-43%).

Published

2003

22. Glutamate Racemase Is an Endogenous DNA Gyrase Inhibitor

Author

Makoto Ashiuchi, Haruo Misono, Eriko Kuwana, Takashi Yamamoto, Kazuya Komatsu, and Kenji Soda

Subjects

Genetic Vectors, Mutant, Peptidoglycan, Biology, medicine.disease_cause, Biochemistry, DNA gyrase, Catalysis, chemistry.chemical_compound, Escherichia coli, medicine, Glutamate racemase, Molecular Biology, Gene, Amino Acid Isomerases, Dose-Response Relationship, Drug, DNA, Superhelical, DNA, Cell Biology, Molecular biology, Uridine Diphosphate N-Acetylmuramic Acid, Up-Regulation, chemistry, DNA Gyrase, DNA supercoil, Cell Division, Plasmids

Abstract

Almost all bacteria possess glutamate racemase to synthesize d-glutamate as an essential component of peptidoglycans in the cell walls. The enforced production of glutamate racemase, however, resulted in suppression of cell proliferation. In the Escherichia coli JM109/pGR3 clone, the overproducer of glutamate racemase, the copy number (i.e. replication efficiency) of plasmid DNA declined dramatically, whereas the E. coli WM335 mutant that is defective in the gene of glutamate racemase showed little genetic competency. The comparatively low and high activities for DNA supercoiling were contained in the E. coli JM109/pGR3 and WM335 cells, respectively. Furthermore, we found that the DNA gyrase of E. coli was modulated by the glutamate racemase of E. coli in the presence of UDP-N-acetylmuramyl-l-alanine, which is a peptidoglycan precursor and functions as an absolute activator for the racemase. This is the first finding of the enzyme protein participating in both d-amino acid metabolism and DNA processing.

Published

2002

23. Isolation of Bacillus subtilis (chungkookjang), a poly-?-glutamate producer with high genetic competence

Author

Moon-Hee Sung, Daeheoun Baek, Tohru Kamei, Kenji Soda, Makoto Ashiuchi, Haruo Misono, Toshiharu Yagi, and S Y Shin

Subjects

chemistry.chemical_classification, Bacillaceae, D-Alanine Transaminase, biology, Alanine Transaminase, General Medicine, Glutamic acid, Bacillus subtilis, Sodium Chloride, biology.organism_classification, Applied Microbiology and Biotechnology, Bacillales, Molecular Weight, Enzyme, Plasmid, Polyglutamic Acid, chemistry, Biochemistry, Soybeans, Transformation, Bacterial, Bacteria, Amino Acid Isomerases, Biotechnology

Abstract

A bacterium with high poly-gamma-glutamate (PGA) productivity was isolated from the traditional Korean seasoning, Chung-Kook-Jang. This bacterium could be classified as a Bacillus subtilis, but sporulation in culture was infrequent in the absence of Mn2+. It was judged to be a variety of B. subtilis and designated B. subtilis (chungkookjang). L-Glutamate significantly induced PGA production, and highly elongated PGAs were synthesized. The volumetric yield reached 13.5 mg ml(-1) in the presence of 2% L-glutamate. The D-glutamate content was over 50% in every PGA produced under the conditions used. During PGA production, glutamate racemase activity was found in the cells, suggesting that the enzyme is involved in the D-glutamate supply. Molecular sizes of PGAs were changed by the salt concentration in the medium; PGAs with comparatively low molecular masses were produced in culture media containing high concentrations of NaCl. B. subtilis (chungkookjang) harbors no plasmid and is the first B. subtilis strain reported with both naturally high PGA productivity and high genetic competence.

Published

2001

24. Physiological and biochemical characteristics of poly γ-glutamate synthetase complex ofBacillus subtilis

Author

Moon-Hee Sung, Seung-Pyo Hong, Jae Jun Song, Chizuko Nawa, Toshiharu Yagi, Tohru Kamei, Makoto Ashiuchi, Haruo Misono, and Kenji Soda

Subjects

chemistry.chemical_classification, DNA ligase, biology, Bacillus subtilis, biology.organism_classification, medicine.disease_cause, Biochemistry, Cofactor, Cell membrane, medicine.anatomical_structure, Enzyme, chemistry, Chaps, ATP hydrolysis, biology.protein, medicine, Escherichia coli

Abstract

An enzymatic system for poly gamma-glutamate (PGA) synthesis in Bacillus subtilis, the PgsBCA system, was investigated. The gene-disruption experiment showed that the enzymatic system was the sole machinery of PGA synthesis in B. subtilis. We succeeded in achieving the enzymatic synthesis of elongated PGAs with the cell membrane of the Escherichia coli clone producing PgsBCA in the presence of ATP and D-glutamate. The enzyme preparation solubilized from the membrane with 8 mM Chaps catalyzed ADP-forming ATP hydrolysis only in the presence of glutamate; the D-enantiomer was the best cosubstrate, followed by the L-enantiomer. Each component of the system, PgsB, PgsC, and PgsA, was translated in vitro and the glutamate-dependent ATPase reaction was kinetically analyzed. The PGA synthetase complex, PgsBCA, was suggested to be an atypical amide ligase.

Published

2001

25. Structure and function of psychrophilic alanine racemase

Author

Hiroyasu Kawai, Nobuyoshi Esaki, Yoko Okubo, Kenji Soda, and Kumio Yokoigawa

Subjects

Alanine, chemistry.chemical_classification, biology, Stereochemistry, Process Chemistry and Technology, Thermophile, Active site, Bioengineering, Pseudomonas fluorescens, Isomerase, biology.organism_classification, Biochemistry, Catalysis, Enzyme, chemistry, Alanine racemase, biology.protein, Protein secondary structure

Abstract

We describe the structure and function of psychrophilic alanine racemases from Bacillus psychrosaccharolyticus and Pseudomonas fluorescens . These enzymes showed high catalytic activities even at 0°C and were extremely labile at temperatures over 35°C. The enzymes were also found to be less resistant to organic solvents than alanine racemases from thermophilic and mesophilic bacteria, both in vivo and in vitro. Both enzymes have a dimeric structure and contain 2 mol of pyridoxal 5′-phosphate (PLP) per mol as a coenzyme. The enzyme from B. psychrosaccharolyticus was found to have a markedly large K m value (5.0 μM) for PLP in comparison with other reported alanine racemases, and was stable at temperatures up to 50°C in the presence of excess amounts of PLP. The dissociation of PLP from the P. fluorescens enzyme may trigger the unfolding of the secondary structure. The enzyme from B. psychrosaccharolyticus has a distinguishing hydrophilic region around residue no. 150 in its deduced amino acid sequence, whereas the corresponding regions of other Bacillus alanine racemases are hydrophobic. The position of this region in the three dimensional structure of this enzyme was predicted to be in a surface loop surrounding the active site. This hydrophilic region may interact with solvent, reduce the compactness of the active site, and destabilize the enzyme.

Published

2001

26. Stereochemistry of the hydrogen abstraction from pyridoxamine phosphate catalyzed by alanine racemase of Bacillus stearothermophilus

Author

Tohru Yoshimura, Yoichi Kurokawa, Akira Watanabe, Nobuyoshi Esaki, Kenji Soda, and Young Hee Lim

Subjects

Alanine, chemistry.chemical_classification, Chemistry, Stereochemistry, Transamination, Process Chemistry and Technology, Bioengineering, Isomerase, Hydrogen atom abstraction, Biochemistry, Catalysis, chemistry.chemical_compound, Stereospecificity, Alanine racemase, Pyridoxamine, Amino-acid racemase

Abstract

Alanine racemase of Bacillus stearothermophilus catalyzes transamination as a side reaction. Stereospecificity for the hydrogen abstraction from C-4′ of pyridoxamine 5′-phosphate occurring in the latter half transamination was examined. Both apo-wild-type and apo-fragmentary alanine racemases abstracted approximately 20 and 80% of tritium from the stereospecifically-labeled (4′ S )- and (4′ R )-[4′- 3 H ]PMP, respectively, in the presence of pyruvate. Alanine racemase catalyzes the abstraction of both 4′ S - and 4′ R -hydrogen like amino acid racemase with broad substrate specificity. However, R -isomer preference is a characteristic property of alanine racemase.

Published

2001

27. Fragmentary Form of Thermostable Leucine Dehydrogenase of Bacillus stearothermophilus: Its Construction and Reconstitution of Active Fragmentary Enzyme

Author

Tadao Oikawa, Yui Jin, Kunishige Kataoka, Shinnichiro Suzuki, and Kenji Soda

Subjects

Stereochemistry, Molecular Sequence Data, Biophysics, Leucine dehydrogenase, Biochemistry, Substrate Specificity, Geobacillus stearothermophilus, Leucine Dehydrogenase, Leucine, Valine, Leucine dehydrogenase activity, Amino Acid Sequence, Isoleucine, Molecular Biology, chemistry.chemical_classification, Binding Sites, biology, Temperature, Active site, Cell Biology, Hydrogen-Ion Concentration, Protein Structure, Tertiary, Amino acid, Oxygen, Enzyme, chemistry, biology.protein, Electrophoresis, Polyacrylamide Gel, Amino Acid Oxidoreductases, Peptides, Plasmids

Abstract

X-ray crystallographic studies revealed that various amino acid dehydrogenases fold into two domains in each subunit, a substrate-binding domain and an NAD(P)+-binding domain (Baker, P. J., Turnbull, A. P., Sedelnikova, S. E., Stillman, T. J., and Rice, D. W. (1995) Structure 3, 693–705). To elucidate the function and folding process of these two domains, we have genetically constructed a fragmentary form of thermostable leucine dehydrogenase of Bacillus stearothermophilus consisting of an N-terminal polypeptide fragment corresponding to the substrate-binding domain including an N-terminus, and a C-terminal fragment corresponding to the NAD+-binding domain. The two peptide fragments were expressed in separate host cells and purified. When both fragments were mixed, the leucine dehydrogenase activity with a specific activity of 1.4% of that of the wild-type enzyme appeared. This suggests that both peptide fragments mutually recognize each other, associate and fold correctly to be catalytically active, although the activity is low. However, the fragmentary form of enzyme produced catalyzed the oxidative deamination of l -leucine, l -isoleucine, and l -valine with broad substrate specificity compared to that of the wild-type enzyme. The fragmentary enzyme retained more than 75% of the initial activity after heating at 50°C for 60 min. The fragmentary enzyme was more stable on heating than separate peptide fragments. These results suggest that the two domains of leucine dehydrogenase probably fold independently, and the two peptide fragments interact and associate with each other to form a functional active site.

Published

2001

28. Increased Transglycosylation Activity of Rhodotorula glutinis Endo-β-Glucanase in Media Containing Organic Solvent

Author

Yasuyuki Tsukagawa, Tadao Oikawa, Masashi Chino, and Kenji Soda

Subjects

Glycosylation, Molecular Sequence Data, Cellulase, Rhodotorula, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Catalysis, Enzyme catalysis, Hydrolysis, chemistry.chemical_compound, Acetone, Organic chemistry, Molecular Biology, Chromatography, biology, Organic Chemistry, Temperature, General Medicine, Glucanase, biology.organism_classification, Yeast, Culture Media, Carbohydrate Sequence, chemistry, Carboxymethylcellulose Sodium, Solvents, biology.protein, Biotechnology

Abstract

The transglycosylation of p-nitrophenyl-beta-D-cellotrioside to cellotetraose catalyzed by endo-1,4-beta-glucanase (cellulase, EC 3.2.1.4) from a psychrotrophic yeast, Rhodotorula glutinis KUJ 2731, was increased by addition of a miscible organic solvent in the reaction mixture. Among various organic solvents tested, acetone was most effective. The transglycosylation activity increased with an increase in acetone concentrations, while hydrolysis activity was suppressed. The transglycosylation preferably occurred at acidic pH with the optimum pH at 2 in 10 mM Gly-HCl buffer. The optimum temperature of transglycosylation was found to be 50 degrees C in the presence of 40% acetone.

Published

2001

29. One-pot chemo-enzymatic enantiomerization of racemates

Author

Tadao Oikawa, Kumio Yokoigawa, and Kenji Soda

Subjects

chemistry.chemical_classification, Oxidase test, Stereochemistry, Process Chemistry and Technology, food and beverages, Substrate (chemistry), Bioengineering, Chemo enzymatic, Biochemistry, Catalysis, Amino acid, Sodium borohydride, chemistry.chemical_compound, Enzyme, chemistry, Yield (chemistry), Organic chemistry, Proline

Abstract

A new one-pot chemo-enzymatic procedure was developed for enantiomerization of racemates based on enzymatic enantiospecific oxidation of a substrate and chemical non-enantiospecific reduction of the product. The principle is shown as follows for the l -proline production. Download : Download high-res image (19KB) Download : Download full-size image l -Proline and l -pipecolate were produced from racemic proline and pipecolate by means of d- amino acid oxidase and sodium borohydride in high yield in this reaction system [J.W. Huh, K. Yokoigawa, N. Esaki, K. Soda, Biosci., Biotechnol., Biochem. 56 (1992) 2081]. dl - and l -Lactate were dl -enantiomerized in a one-pot reaction system containing l -lactate oxidase and sodium borohydride in the similar manner [S. Mukoyama, K. Yamanaka, T. Oikawa, K. Soda, Nippon Nogei Kagaku Kaishi 73 (1999) 62]. Pyruvate was also converted to an equimolar amount of d- lactate in the same system. d- α-Hydroxybutyrate can be produced from the dl - and l -isomers, and α-ketobutyrate in the same manner though slowly. This method is applicable to production of other chiral compounds from the corresponding racemates.

Published

2001

30. High catalytic activity of alanine racemase from psychrophilicBacillus psychrosaccharolyticusat high temperatures in the presence of pyridoxal 5′-phosphate

Author

Nobuyoshi Esaki, Haruo Misono, Kenji Soda, Kumio Yokoigawa, and Yoko Okubo

Subjects

Stereochemistry, Bacillus, chemical and pharmacologic phenomena, Microbiology, Catalysis, Cofactor, chemistry.chemical_compound, immune system diseases, Alanine racemase, Genetics, Pyridoxal phosphate, Psychrophile, Molecular Biology, Pyridoxal, chemistry.chemical_classification, Dose-Response Relationship, Drug, biology, Alanine Racemase, Temperature, Enzyme assay, nervous system diseases, Enzyme, chemistry, Biochemistry, Pyridoxal Phosphate, biology.protein, lipids (amino acids, peptides, and proteins), Specific activity

Abstract

We examined the effect of the pyridoxal 5'-phosphate (PLP) cofactor on the activity and stability of the psychrophilic alanine racemase, having a high catalytic activity at low temperature, from Bacillus psychrosaccharolyticus at high temperatures. The decrease in the enzyme activity at incubation temperatures over 40 degrees C was consistent with the decrease in the amount of bound PLP. Unfolding of the enzyme at temperatures above 40 degrees C was suppressed in the presence of PLP. In the presence of 0.125 mM PLP, the specific activity of the psychrophilic enzyme was higher than that of a thermophilic alanine racemase, having a high catalytic activity at high temperature, from Bacillus stearothermophilus even at 60 degrees C.

Published

2000

31. Stereochemistry of the Transamination Reaction Catalyzed by Aminodeoxychorismate Lyase from Escherichia coli: Close Relationship between Fold Type and Stereochemistry

Author

Ken Hirotsu, Nobuyoshi Esaki, Sou Takeda, Kwang-Hwan Jhee, Edith Wilson Miles, Tbhru Yoshimura, Kenji Soda, Yasushi Kawata, and Ikuko Miyahara

Subjects

Protein Folding, Transamination, Stereochemistry, Molecular Conformation, Hydrogen atom abstraction, Biochemistry, Catalysis, Cofactor, Evolution, Molecular, chemistry.chemical_compound, Apoenzymes, Pyruvic Acid, Escherichia coli, Tryptophan Synthase, Pyridoxal phosphate, Molecular Biology, Pyridoxal, Transaminases, chemistry.chemical_classification, Alanine, biology, Tryptophanase, Oxo-Acid-Lyases, Aminodeoxychorismate lyase, General Medicine, Lyase, Recombinant Proteins, Kinetics, Enzyme, chemistry, Spectrophotometry, Pyridoxal Phosphate, biology.protein, Pyridoxamine, Hydrogen

Abstract

Aminodeoxychorismate lyase is a pyridoxal 5'-phosphate-dependent enzyme that converts 4-aminodeoxychorismate to pyruvate and p-aminobenzoate, a precursor of folic acid in bacteria. The enzyme exhibits significant sequence similarity to two aminotransferases, D-amino acid aminotransferase and branched-chain L-amino acid aminotransferase. In the present study, we have found that aminodeoxychorismate lyase catalyzes the transamination between D-alanine and pyridoxal phosphate to produce pyruvate and pyridoxamine phosphate. L-Alanine and other D- and L-amino acids tested were inert as substrates of transamination. The pro-R hydrogen of C4' of pyridoxamine phosphate was stereospecifically abstracted during the reverse half transamination from pyridoxamine phosphate to pyruvate. Aminodeoxychorismate lyase is identical to D-amino acid aminotransferase and branched-chain L-amino acid aminotransferase in the stereospecificity of the hydrogen abstraction, and differs from all other pyridoxal enzymes that catalyze pro-S hydrogen transfer. Aminodeoxychorismate lyase is the first example of a lyase that catalyzes pro-R-specific hydrogen abstraction. The result is consistent with recent X-ray crystallographic findings showing that the topological relationships between the cofactor and the catalytic residue for hydrogen abstraction are conserved among aminodeoxychorismate lyase, D-amino acid aminotransferase and branched-chain L-amino acid aminotransferase [Nakai, T., Mizutani, H., Miyahara, I., Hirotsu, K., Takeda, S., Jhee, K.-H., Yoshimura, T., and Esaki, N. (2000) J. Biochem. 128, 29-38].

Published

2000

32. Behavioural and serological human immunodeficiency virus risk factors among female commercial sex workers in Cambodia

Author

Kenji Ohshige, P. Tia, Shinsuke Morio, Kenji Soda, Kazuo Tajima, S. Heng, L. B. Hor, Katsuhiko Kitamura, S Usuku, Akihiko Suyama, Osamu Tochikubo, V. Saphonn, and Shunsaku Mizushima

Subjects

Adult, Sexually transmitted disease, Sexual transmission, Adolescent, Epidemiology, Sexual Behavior, Population, Chlamydia trachomatis, HIV Infections, HIV Antibodies, medicine.disease_cause, law.invention, Condom, Acquired immunodeficiency syndrome (AIDS), HIV Seroprevalence, Risk Factors, law, Surveys and Questionnaires, Disease Transmission, Infectious, medicine, Humans, education, education.field_of_study, Chlamydia, business.industry, HIV, virus diseases, General Medicine, Chlamydia Infections, medicine.disease, Antibodies, Bacterial, Sex Work, Immunology, Female, Syphilis, Cambodia, business, Demography

Abstract

The spread of HIV in Cambodia is mainly caused by sexual transmission and the high-risk group that in this country are female commercial sex workers (CSWs). There are two types of CSWs direct CSWs (DCSWs) and indirect CSW (ICSWs) who are different from each other in sexual activities. This study was conducted in order to describe the risk factors on HIV for each type of CSW and to establish effective preventive strategies against the HIV epidemic among CSWs. The participants 143 DCSWs and 94 ICSWs were interviewed using a questionnaire to determine their demographic characteristics and behavior. Blood samples were taken for serological tests on HIV Chlamydia trachomatis and syphilis. The association between their behavioral pattern and their serological results was analyzed. The questionnaire study showed that ICSWs had a riskier behavioral pattern than DCSWs. The HIV seroprevalence rates of the DCSWs and the ICSWs were 52.4% and 22.3% respectively. Univariate logistic analyses showed a significant association between HIV antibody (HIV-Ab) and current age age at commencement of commercial sex work duration of commercial sex work and the seropositivity of Chlamydia trachomatis--Immunoglobulin G antibody (CT-IgG-Ab) among the DCSWs. The analyses also showed a significant relationship between HIV-Ab and CT-IgG-Ab among the ICSWs. Improving condom use rate is very important in order to prevent an HIV epidemic among the two types of CSWs. This study also suggests it is important to prevent sexually transmitted disease (STD) such as Chlamydia trachomatis infection. The STD control program could be efficient for HIV prevention especially among DCSWs. (authors)

Published

2000

33. Cross-sectional study on risk factors of HIV among female commercial sex workers in Cambodia

Author

Kenji Ohshige, K Tajima, P. Tia, L. B. Hor, Akira Ito, S. Heng, Kenji Soda, Akihiko Suyama, Katsuhiko Kitamura, V. Saphonn, S Usuku, Shunsaku Mizushima, and Shinsuke Morio

Subjects

Adult, Sexually transmitted disease, Adolescent, Epidemiology, Cross-sectional study, Sexual Behavior, Sexually Transmitted Diseases, Prevalence, Chlamydia trachomatis, HIV Infections, Comorbidity, medicine.disease_cause, Age Distribution, Acquired immunodeficiency syndrome (AIDS), Risk Factors, Seroepidemiologic Studies, Odds Ratio, medicine, Humans, Seroprevalence, Risk factor, business.industry, virus diseases, Chlamydia Infections, medicine.disease, Sex Work, Cross-Sectional Studies, Logistic Models, Infectious Diseases, Socioeconomic Factors, Vietnam, Immunology, Female, Syphilis, Cambodia, business, Research Article, Demography

Abstract

To describe epidemiological features on HIV prevalence among female commercial sex workers (CSWs), a cross-sectional study on sexual behaviour and serological prevalence was carried out in Cambodia. The CSWs were interviewed on their demographic characters and behaviour and their blood samples were taken for testing on sexually transmitted diseases, including HIV, Chlamydia trachomatis, syphilis, and hepatitis B. Associations between risk factors and HIV seropositivity were analysed. High seroprevalence of HIV and Chlamydia trachomatis IgG antibody (CT-IgG-Ab) was shown among the CSWs (54 and 81·7%, respectively). Univariate logistic regression analyses showed an association between HIV seropositivity and age, duration of prostitution, the number of clients per day and CT-IgG-Ab. Especially, high-titre chlamydial seropositivity showed a strong significant association with HIV prevalence. In multiple logistic regression analyses, CT-IgG-Ab with higher titre was significantly independently related to HIV infection. These suggest that existence of Chlamydia trachomatis is highly related to HIV prevalence.

Published

2000

34. Annual Surveillance Report of HIV/AIDS in Japan, 1997

Author

Yoshikazu Nakamura, Kaneo Yamada, Seiichi Ichikawa, Noriyuki Kawasaki, Akira Ito, Shuuji Hashimoto, Mitsuhiro Kamakura, Masayoshi Negishi, Akira Yasuoka, Kaoru Shimada, Masahiro Kihara, Takashi Kurimura, Kazuo Tajima, Shudo Yamazaki, and Kenji Soda

Subjects

Microbiology (medical), Gerontology, Infectious Diseases, Acquired immunodeficiency syndrome (AIDS), business.industry, medicine, General Medicine, medicine.disease, business

Published

1999

35. Production of aromatic d-amino acids from α-keto acids and ammonia by coupling of four enzyme reactions

Author

Kwak Mi-Sun, Seung-Pyo Hong, Nobuyoshi Esaki, Bae Hee-Sung, Kenji Soda, Seung-Goo Lee, and Moon-Hee Sung

Subjects

chemistry.chemical_classification, D-Alanine Transaminase, Stereochemistry, Process Chemistry and Technology, Glutamate dehydrogenase, Bioengineering, Phenylalanine, Formate dehydrogenase, Biochemistry, Catalysis, Amino acid, chemistry.chemical_compound, chemistry, Ammonium formate, Glutamate racemase, Tyrosine

Abstract

A multi-enzyme system composed of glutamate racemase, thermostable d -amino acid aminotransferase, glutamate dehydrogenase and formate dehydrogenase was employed for the production of aromatic d -amino acids, d -phenylalanine and d -tyrosine, from the corresponding α -keto acids, phenylpyruvate and hydroxyphenylpyruvate, respectively. The optimal concentration of ammonium formate for the production of these d -amino acids was found in the range of 0.25–1.0 M. The optimal concentration of α -keto acid was determined to be 50 mM, above which the productivity greatly decreased. To keep the concentration of α -keto acid around this concentration, α -keto acid was intermittently fed into the multi-enzyme system during the production period. By running the multi-enzyme system for 35 h, 48 g l −1 of d -phenylalanine and 60 g l −1 of d -tyrosine were produced with 100% of optical purity from the equimolar amounts of phenylpyruvate and hydroxyphenylpyruvate, respectively. The production levels of both aromatic d -amino acids were demonstrated to be dependent on the stability of glutamate racemase.

Published

1999

36. Role of Lysine 39 of Alanine Racemase from Bacillus stearothermophilus That Binds Pyridoxal 5′-Phosphate

Author

Akira Watababe, Yoichi Kurokawa, Nobuyoshi Esaki, Kenji Soda, Tohru Yoshimura, and Tatsuo Kurihara

Subjects

chemistry.chemical_classification, Alanine, Methylamine, Stereochemistry, Cell Biology, Biochemistry, Amino acid, chemistry.chemical_compound, Residue (chemistry), Enzyme, chemistry, Alanine racemase, Pyridoxal phosphate, Molecular Biology, Pyridoxal

Abstract

The lysine residue binding with the cofactor pyridoxal 5'-phosphate (PLP) plays an important role in catalysis, such as in the transaldimination and abstraction of alpha-hydrogen from a substrate amino acid in PLP-dependent enzymes. We studied the role of Lys39 of alanine racemase (EC 5.1.1.1) from Bacillus stearothermophilus, the PLP-binding residue of the enzyme, by replacing it site-specifically with alanine and characterizing the resultant K39A mutant enzyme. The mutant enzyme turned out to be inherently inactive, but gained an activity as high as about 0.1% of that of the wild-type enzyme upon addition of 0.2 M methylamine. The amine-assisted activity of the mutant enzyme depended on the pKa values and molecular volumes of the alkylamines used. A strong kinetic isotope effect was observed when alpha-deuterated D-alanine was used as a substrate in the methylamine-assisted reaction, but little effect was observed using its antipode. In marked contrast, only L-enantiomer of alanine showed a solvent isotope effect in deuterium oxide in the methylamine-assisted reaction. These results suggest that methylamine serves as a base not only to abstract the alpha-hydrogen from D-alanine but also to transfer a proton from water to the alpha-position of the deprotonated (achiral) intermediate to form D-alanine. Therefore, the exogenous amine can be regarded as a functional group fully representing Lys39 of the wild-type enzyme. Lys39 of the wild-type enzyme probably acts as the base catalyst specific to the D-enantiomer of alanine. Another residue specific to the L-enantiomer in the wild-type enzyme is kept intact in the K39A mutant.

Published

1999

37. Sexual Behaviour of Commercial Sex Workers and Their Clients in Cambodia

Author

Akihiko Suyama, Shinsuke Morio, Heng Sopheab, Kazuo Tajima, Tia Phalla, Hor Bun Leng, Kenji Soda, Kenji Ohshige, Katsuhiro Kitamura, Shunsaku Mizushima, and Fengzhu Tan

Subjects

medicine.medical_specialty, Epidemiology, business.industry, Cross-sectional study, Human factors and ergonomics, Poison control, General Medicine, medicine.disease, Suicide prevention, Occupational safety and health, Social support, Acquired immunodeficiency syndrome (AIDS), Family medicine, Injury prevention, Medicine, business

Abstract

Objective: This study surveyed the sexual behaviour of commercial sex workers and their clients in an attempt to identify factors of transmission of STDs (including HIV/AIDS) and to control their epidemics in Cambodia and South-East Asia.Design: Cross-sectional study.Setting: Trained questioners asked items of the questionnaires to each objective subject in December 1996. Data were analysed to show the descriptive status by risk group of each person.Participants: 200 direct commercial sex workers, 220 indirect commercial sex workers, and 211 clients in Phnom Penh.Results: Prostitution was widely accepted by both young males and females, and this was an easy way for young girls to obtain money. Although commercial sex workers and clients were knowledgeable about prevention methods against STDs, they seldom used condoms. Some commercial sex workers had been infected with STDs many times, and many of them incompletely treated the diseases by themselves. Social support from governmental and non- governmental organisation was poor.Conclusions: It is very important to support both commercial sex workers in practicing preventive methods against STDs and also visiting physicians when they notice symptoms of STDs. It is strongly recommended that not only governmental but also non-governmental organisations should be more active in this area. J Epidemiol, 1999 ; 9 : 175-182

Published

1999

38. Purification and Characterization of NAD:Penicillamine ADP Transferase from Bacillus sphaericus

Author

Kenji Inagaki, Kenji Soda, Takashi Tamura, Jun Yanagidani, and Hidehiko Tanaka

Subjects

chemistry.chemical_classification, Nicotinamide, biology, Stereochemistry, Substrate (chemistry), Cell Biology, biology.organism_classification, Biochemistry, Bacillus sphaericus, chemistry.chemical_compound, Enzyme, chemistry, Product inhibition, Transferase, Nucleotide, NAD+ kinase, Molecular Biology

Abstract

A strain of Bacillus sphaericus isolated from a local soil sample has been found to use beta,beta-dimethyl-DL-cysteine (DL-penicillamine) as the sole nitrogen source. Crude cell extract of the bacterium showed potent penicillamine-consuming activity only in the presence of NAD, which, however, was not used as an electron acceptor. Characterization of reaction products revealed that penicillamine was derivatized to a phosphoramide adduct with the ADP moiety of NAD, whereas the nicotinamide-ribose group was released and hydrolyzed spontaneously to ribose and nicotinamide. The phosphoramide product, ADP-penicillamine, caused potent product inhibition on the purified enzyme, and adenylate deaminase was found to be effective in converting the inhibitory product into inosine-diphosphate-penicillamine and thereby maintained the catalysis for several hours. The novel enzyme, termed as NAD:penicillamine ADP transferase, showed a single band on SDS-polyacrylamide gel electrophoresis with a mass of approximately 42 kDa. The native enzyme was monomeric. The enzyme showed high substrate specificity to NAD (Km = 13.0 mM) and L-penicillamine (Km = 6.5 mM); other nucleotides such as NADP, NAD(P)H, AMP, ADP, and ADP-ribose did not substitute for NAD, and L-valine, L-cysteine, L-homocysteine, L-cystine, L-leucine, and L-isoleucine did not serve as the substrate. Kinetic studies suggested an Ordered Bi Bi mechanism, with NAD as the first substrate to bind and ADP-L-penicillamine as the last product released. The novel NAD-dependent enzyme may catalyze the first step in penicillamine degradation in the strain of B. sphaericus.

Published

1999

39. Stereoisomers of Glutathione: Preparation and Enzymatic Reactiities

Author

Kenji Soda, Takahiro Yamauchi, Hidehiko Kumagai, and Tadao Oikawa

Subjects

Taurine, Magnetic Resonance Spectroscopy, Antioxidant, Stereochemistry, medicine.medical_treatment, Glutathione reductase, Medicine (miscellaneous), Stereoisomerism, Tripeptide, chemistry.chemical_compound, medicine, Chromatography, High Pressure Liquid, Glutathione Transferase, Nutrition and Dietetics, Glutathione Disulfide, biology, Chemistry, Circular Dichroism, gamma-Glutamyltransferase, Glutathione, Glutathione Reductase, Glutathione S-transferase, Biochemistry, biology.protein, Glutathione disulfide

Abstract

We synthesized a series of stereoisomers of glutathione (GSH) and glutathione disulfide (GSSG) by the solid-phase method. These peptides were used to examine their reactivities with enzymes acting on glutathione. The glutathione reductase of yeast acted only on LL-GSSG. Glutathione S-transferase catalyzed the conjugation of 1-chloro-2,4-dinitrobenzene with LL-GSH and DL-GSH (Km (mM): for LL-GSH, 0.035; and for DL-GSH, 0.62), but the DD- and LD-diastereomers were inert. gamma-Glutamyl transpeptidase catalyzed the transfer of gamma-glutamyl moiety of LL-GSH and DL-GSH to taurine forming gamma-glutamyl taurine and cysteinyl taurine (Km (mM): for LL-GSH, 0.336; and for DL-GSH, 0.628), but the other diastereomers were not the substrates. The occurrence of L-cysteinyl residue in the tripeptides is required for the glutathione analogue to be a substrate of the enzymes.

Published

1999

40. Characterization ofyrpCGene Product ofBacillus subtilisIFO 3336 as Glutamate Racemase Isozyme

Author

Haruo Misono, Kenji Soda, and Makoto Ashiuchi

Subjects

Auxotrophy, Molecular Sequence Data, Bacillus subtilis, Biology, medicine.disease_cause, Applied Microbiology and Biotechnology, Biochemistry, Isozyme, Substrate Specificity, Analytical Chemistry, Gene product, Plasmid, Escherichia coli, medicine, Glutamate racemase, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Gene, Amino Acid Isomerases, DNA Primers, Base Sequence, Sequence Homology, Amino Acid, Genetic Complementation Test, fungi, Organic Chemistry, General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Molecular biology, Recombinant Proteins, Isoenzymes, Molecular Weight, Kinetics, Biotechnology

Abstract

Glr, the glutamate racemase of Bacillus subtilis (formerly Bacillus natto) IFO 3336 encoded by the glr gene, and YrpC, a protein encoded by the yrpC gene, which is located at a different locus from that of the glr gene in the B. subtilis genome, share a high sequence similarity. The yrpC gene complemented the D-glutamate auxotrophy of Escherichia coli WM335 cells defective in the glutamate racemase gene. Glutamate racemase activity was found in the extracts of E. coli WM335 clone cells harboring a plasmid, pYRPC1, carrying its gene. Thus, the yrpC gene encodes an isozyme of glutamate racemase of B. subtilis IFO 3336. YrpC is mostly found in an inactive inclusion body in E. coli JM109/pYRPC1 cells. YrpC was solubilized readily, but glutamate racemase activity was only slightly restored. We purified YrpC from the extracts of E. coli JM109/pYRPC2 cells using a Glutathione S-transferase Gene Fusion System to characterize it. YrpC is a monomeric protein and contains no cofactors, like Glr. Enzymological properties of YrpC, such as the substrate specificity and optimum pH, are also similar to those of Glr. The thermostability of YrpC, however, is considerably lower than that of Glr. In addition, YrpC showed higher affinity and lower catalytic efficiency for L-glutamate than Glr. This is the first example showing the occurrence and properties of a glutamate racemase isozyme.

Published

1999

41. Transamination as a Side-Reaction Catalyzed by Alanine Racemase of Bacillus stearothermophilus

Author

Yoichi Kurokawa, Tohru Yoshimura, Akira Watanabe, Nobuyoshi Esaki, and Kenji Soda

Subjects

Alanine, chemistry.chemical_classification, Methylamine, Transamination, Stereochemistry, Lysine, Alanine Racemase, Substrate (chemistry), General Medicine, Hydrogen-Ion Concentration, Biochemistry, Substrate Specificity, Geobacillus stearothermophilus, chemistry.chemical_compound, chemistry, Catalytic Domain, Alanine racemase, Mutagenesis, Site-Directed, Pyridoxamine, Amino Acids, Molecular Biology, Pyridoxal, Racemization

Abstract

The pyridoxal form of alanine racemase of Bacillus stearothermophilus was converted to the pyridoxamine form by incubation with its natural substrate, D- or L-alanine, under acidic conditions: the enzyme loses its racemase activity concomitantly. The pyridoxamine form of the enzyme returned to the pyridoxal form by incubation with pyruvate at alkaline pH. Thus, alanine racemase catalyzes transamination as a side function. In fact, the apo-form of the enzyme abstracted tritium from [4'-3H]pyridoxamine in the presence of pyruvate. A mutant enzyme containing alanine substituted for Lys39, whose epsilon-amino group forms a Schiff base with the C4' aldehyde of pyridoxal 5'-phosphate in the wild-type enzyme, was inactive as a catalyst for racemization as well as transamination. However, when methylamine was added to the mutant enzyme, it became active in both reactions. These results suggest that the epsilon-amino group of Lys39 participates in both racemization and transamination when catalyzed by the wild-type enzyme.

Published

1998

42. Reaction Mechanism of Fluoroacetate Dehalogenase from Moraxella sp. B

Author

Nobuyoshi Esaki, Ji Quan Liu, Masaru Miyagi, Susumu Tsunasawa, Tatsuo Kurihara, Haruhiko Kawasaki, Kenji Soda, and Susumu Ichiyama

Subjects

Alkylation, Hydrolases, Stereochemistry, Fluoroacetates, Molecular Sequence Data, Acetates, Oxygen Isotopes, Biochemistry, Mass Spectrometry, Nucleophile, Catalytic Domain, Escherichia coli, medicine, Moraxella, Amino Acid Sequence, Molecular Biology, chemistry.chemical_classification, Sequence Homology, Amino Acid, biology, Hydrolysis, Active site, Substrate (chemistry), Esters, Cell Biology, Fluoroacetate dehalogenase, Trypsin, Recombinant Proteins, Amino acid, chemistry, Mutagenesis, Site-Directed, biology.protein, Fluoroacetate, medicine.drug, Haloalkane dehalogenase

Abstract

Fluoroacetate dehalogenase (EC 3.8.1.3) catalyzes the dehalogenation of fluoroacetate and other haloacetates. The amino acid sequence of fluoroacetate dehalogenase from Moraxella sp. B is similar to that of haloalkane dehalogenase (EC 3.8.1.5) from Xanthobacter autotrophicus GJ10 in the regions around Asp-105 and His-272, which correspond to the active site nucleophile Asp-124 and the base catalyst His-289 of the haloalkane dehalogenase, respectively (Krooshof, G. H., Kwant, E. M., Damborský, J., Koca, J., and Janssen, D. B. (1997) Biochemistry 36, 9571-9580). After multiple turnovers of the fluoroacetate dehalogenase reaction in H218O, the enzyme was digested with trypsin, and the molecular masses of the peptide fragments formed were measured by ion-spray mass spectrometry. Two 18O atoms were shown to be incorporated into the octapeptide, Phe-99-Arg-106. Tandem mass spectrometric analysis of this peptide revealed that Asp-105 was labeled with two 18O atoms. These results indicate that Asp-105 acts as a nucleophile to attack the alpha-carbon of the substrate, leading to the formation of an ester intermediate, which is subsequently hydrolyzed by the nucleophilic attack of a water molecule on the carbonyl carbon atom. A His-272 --> Asn mutant (H272N) showed no activity with either fluoroacetate or chloroacetate. However, ion-spray mass spectrometry revealed that the H272N mutant enzyme was covalently alkylated with the substrate. The reaction of the H272N mutant enzyme with [14C]chloroacetate also showed the incorporation of radioactivity into the enzyme. These results suggest that His-272 probably acts as a base catalyst for the hydrolysis of the covalent ester intermediate.

Published

1998

43. A Cold-Adapted Lipase of an Alaskan Psychrotroph, Pseudomonas sp. Strain B11-1: Gene Cloning and Enzyme Purification and Characterization

Author

Kenji Soda, Tatsuo Kurihara, Dong-Won Choo, Nobuyoshi Esaki, and Takeshi Suzuki

Subjects

Tributyrin, Triacylglycerol lipase, Applied Microbiology and Biotechnology, Pentapeptide repeat, Substrate Specificity, chemistry.chemical_compound, Pseudomonas, Enzymatic hydrolysis, Enzymology and Protein Engineering, Cloning, Molecular, Lipase, chemistry.chemical_classification, Ecology, biology, Temperature, Nucleic acid sequence, Hydrogen-Ion Concentration, biology.organism_classification, Molecular biology, Cold Temperature, Enzyme, Biochemistry, chemistry, Solvents, biology.protein, Food Science, Biotechnology

Abstract

A psychrotrophic bacterium producing a cold-adapted lipase upon growth at low temperatures was isolated from Alaskan soil and identified as a Pseudomonas strain. The lipase gene ( lipP ) was cloned from the strain and sequenced. The amino acid sequence deduced from the nucleotide sequence of the gene (924 bp) corresponded to a protein of 308 amino acid residues with a molecular weight of 33,714. LipP also has consensus motifs conserved in other cold-adapted lipases, i.e., Lipase 2 from Antarctic Moraxella TA144 (G. Feller, M. Thiry, J. L. Arpigny, and C. Gerday, DNA Cell Biol. 10:381–388, 1991) and the mammalian hormone-sensitive lipase (D. Langin, H. Laurell, L. S. Holst, P. Belfrage, and C. Holm, Proc. Natl. Acad. Sci. USA 90:4897–4901, 1993): a pentapeptide, GDSAG, containing the putative active-site serine and an HG dipeptide. LipP was purified from an extract of recombinant Escherichia coli C600 cells harboring a plasmid coding for the lipP gene. The enzyme showed a 1,3-positional specificity toward triolein. p -Nitrophenyl esters of fatty acids with short to medium chains (C 4 and C 6 ) served as good substrates. The enzyme was stable between pH 6 and 9, and the optimal pH for the enzymatic hydrolysis of tributyrin was around 8. The activation energies for the hydrolysis of p -nitrophenyl butyrate and p -nitrophenyl laurate were determined to be 11.2 and 7.7 kcal/mol, respectively, in the temperature range 5 to 35°C. The enzyme was unstable at temperatures higher than 45°C. The K m of the enzyme for p -nitrophenyl butyrate increased with increases in the assay temperature. The enzyme was strongly inhibited by Zn 2+ , Cu 2+ , Fe 3+ , and Hg 2+ but was not affected by phenylmethylsulfonyl fluoride and bis-nitrophenyl phosphate. Various water-miscible organic solvents, such as methanol and dimethyl sulfoxide, at concentrations of 0 to 30% (vol/vol) activated the enzyme.

Published

1998

44. Nonstereospecific Transamination Catalyzed by Pyridoxal Phosphate-dependent Amino Acid Racemases of Broad Substrate Specificity

Author

Kenji Soda, Yoichi Kurokawa, Young Hee Lim, Nobuyoshi Esaki, and Tohru Yoshimura

Subjects

Ornithine, Stereochemistry, Transamination, Molecular Conformation, Biochemistry, Catalysis, Cofactor, Substrate Specificity, chemistry.chemical_compound, Bacterial Proteins, Pyruvic Acid, Amino-acid racemase, Pyridoxal phosphate, Molecular Biology, Pyridoxal, Racemization, Transaminases, Amino Acid Isomerases, chemistry.chemical_classification, biology, Pseudomonas putida, Substrate (chemistry), Cell Biology, chemistry, Pyridoxal Phosphate, biology.protein, Ketoglutaric Acids, Pyridoxamine, Hydrogen

Abstract

Pyridoxal 5'-phosphate-dependent amino acid racemases of broad substrate specificity catalyze transamination as a side reaction. We studied the stereospecificities for hydrogen abstraction from C-4' of the bound pyridoxamine 5'-phosphate during transamination from pyridoxamine 5'-phosphate to pyruvate catalyzed by three amino acid racemases of broad substrate specificity. When the enzymes were incubated with (4'S)- or (4'R)-[4'-3H]pyridoxamine 5'-phosphate in the presence of pyruvate, tritium was released into the solvent from both pyridoxamine 5'-phosphates. Thus, these enzymes abstract a hydrogen nonstereospecifically from C-4' of the coenzyme in contrast to the other pyridoxal 5'-phosphate-dependent enzymes so far studied, which catalyze the stereospecific hydrogen removal. Amino acid racemase of broad substrate specificity from Pseudomonas putida produced D- and L-glutamate from alpha-ketoglutarate through the transamination with L-ornithine. Because glutamate does not serve as a substrate for racemization, the enzyme catalyzed the nonstereospecific overall transamination between L-ornithine and alpha-ketoglutarate. The cleavage and formation of the C-H bond at C-4' of the coenzyme and C-2 of the substrate thus occurs nonstereospecifically on both sides of the plane of the coenzyme-substrate complex intermediate. Amino acid racemase of broad substrate specificity is the first example of a pyridoxal enzyme catalyzing nonstereospecific transamination.

Published

1998

45. Bacterial DL-2-haloacid dehalogenase from Pseudomonas sp. strain 113: gene cloning and structural comparison with D- and L-2-haloacid dehalogenases

Author

Kenji Soda, Chung Park, Nobuyoshi Esaki, Vincenzo Nardi-Dei, and Tatsuo Kurihara

Subjects

DNA, Bacterial, Hydrolases, Molecular Sequence Data, Mutant, Gene Expression, Molecular cloning, Binding, Competitive, Microbiology, Bacterial Proteins, Isomerism, Pseudomonas, Escherichia coli, polycyclic compounds, Animals, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Dehalogenase, chemistry.chemical_classification, Base Sequence, Sequence Homology, Amino Acid, biology, Substrate (chemistry), biology.organism_classification, Pseudomonas putida, Enzyme, Biochemistry, chemistry, Genes, Bacterial, Mutagenesis, Site-Directed, Rabbits, Propionates, Enantiomer, hormones, hormone substitutes, and hormone antagonists, Research Article

Abstract

DL-2-Haloacid dehalogenase from Pseudomonas sp. strain 113 (DL-DEX) catalyzes the hydrolytic dehalogenation of both D- and L-2-haloalkanoic acids to produce the corresponding L- and D-2-hydroxyalkanoic acids, respectively, with inversion of the C2 configuration. DL-DEX is a unique enzyme: it acts on the chiral carbon of the substrate and uses both enantiomers as equivalent substrates. We have isolated and sequenced the gene encoding DL-DEX. The open reading frame consists of 921 bp corresponding to 307 amino acid residues. No sequence similarity between DL-DEX and L-2-haloacid dehalogenases was found. However, DL-DEX had significant sequence similarity with D-2-haloacid dehalogenase from Pseudomonas putida AJ1, which specifically acts on D-2-haloalkanoic acids: 23% of the total amino acid residues of DL-DEX are conserved. We mutated each of the 26 residues with charged and polar side chains, which are conserved between DL-DEX and D-2-haloacid dehalogenase. Thr65, Glu69, and Asp194 were found to be essential for dehalogenation of not only the D- but also the L-enantiomer of 2-haloalkanoic acids. Each of the mutant enzymes, whose activities were lower than that of the wild-type enzyme, acted on both enantiomers of 2-haloacids as equivalent substrates in the same manner as the wild-type enzyme. We also found that each enantiomer of 2-chloropropionate competitively inhibits the enzymatic dehalogenation of the other. These results suggest that DL-DEX has a single and common catalytic site for both enantiomers.

Published

1997

46. Cloning and Expression of the Glutamate Racemase Gene of Bacillus pumilus

Author

Tohru Yoshimura, Keiji Endo, Lidong Liu, Kenji Soda, and Nobuyoshi Esaki

Subjects

Recombinant Fusion Proteins, Molecular Sequence Data, Bacillus, Bacillus subtilis, medicine.disease_cause, Biochemistry, Gene Expression Regulation, Enzymologic, Escherichia coli, medicine, Glutamate racemase, Amino Acid Sequence, Cloning, Molecular, Codon, Peptide Chain Initiation, Translational, Molecular Biology, Gene, Peptide sequence, Amino Acid Isomerases, chemistry.chemical_classification, Base Sequence, biology, Bacillus pumilus, Chemistry, fungi, Gene Expression Regulation, Bacterial, General Medicine, biology.organism_classification, Fusion protein, Enzyme, Mutation, bacteria

Abstract

A glutamate racemase gene (murI) was found in Bacillus pumilus cells and cloned into Escherichia coli WM335, a D-glutamate auxotroph, by means of a genetic complement method. MurI of B. pumilus encodes a 272-amino acid protein with an unusual initiation codon, TTG. The deduced amino acid sequence shows significant similarity with those of glutamate racemases from E. coli (ratio of identical residues, 28%), Pediococcus pentosaceus (44%), and Staphylococcus haemolyticus (49%). B. pumilus MurI was expressed as a fusion protein connected to the N-terminal 12 residues of beta-galactosidase; the fusion protein showed glutamate racemase activity, and resembled the enzyme of P. pentosaceus in physicochemical and enzymological properties.

Published

1997

47. Paracatalytic Inactivation of L-2-Haloacid Dehalogenase from Pseudomonas sp. YL by Hydroxylamine

Author

Ji Quan Liu, Tatsuo Kurihara, Susumu Tsunasawa, Mitsuhiro Nishihara, Masaru Miyagi, Kenji Soda, and Nobuyoshi Esaki

Subjects

chemistry.chemical_classification, Molecular mass, Chemistry, Stereochemistry, Peptide, Cell Biology, Biochemistry, Hydrolysis, Residue (chemistry), chemistry.chemical_compound, Enzyme, Lysyl endopeptidase, Hydroxylamine, Organic chemistry, Molecular Biology, Dehalogenase

Abstract

Asp10 of L-2-haloacid dehalogenase from Pseudomonas sp. YL was proposed to act as a nucleophile to attack the α-carbon of L-2-haloalkanoic acids to form an ester intermediate, which is hydrolyzed by nucleophilic attack of a water molecule on the carbonyl carbon (Liu, J.-Q, Kurihara, T., Miyagi, M., Esaki, N., and Soda, K. (1995) J. Biol. Chem. 270, 18309-18312). We have found that the enzyme is paracatalytically inactivated by hydroxylamine in the presence of the substrates monochloroacetate and L-2-chloropropionate. Ion spray mass spectrometry demonstrated that the molecular mass of the enzyme inactivated by hydroxylamine during the dechlorination of monochloroacetate is about 74 Da greater than that of the native enzyme. To determine the increase of the molecular mass more precisely, we digested the inactivated enzyme with lysyl endopeptidase and measured the molecular masses of the peptide fragments. The molecular mass of the hexapeptide Gly6-Lys11 was shown to increase by 73 Da. Tandem mass spectrometric analysis of this peptide revealed that the increase is due to a modification of Asp10. When the enzyme was paracatalytically inactivated by hydroxylamine during the dechlorination of L-2-chloropropionate, the molecular mass of the hexapeptide was 87 Da higher. Hydroxylamine is proposed to attack the carbonyl carbon of the ester intermediate and form a stable aspartate β-hydroxamate carboxyalkyl ester residue in the inactivated enzyme.

Published

1997

48. Crystal Structure of L-2-Haloacid Dehalogenase from Pseudomonas sp. YL

Author

Tomomi Fujii, Yasuo Hata, Kenji Soda, Tamao Hisano, Nobuyoshi Esaki, Ji-Quan Liu, and Tatsuo Kurihara

Subjects

Helix bundle, biology, Multiple isomorphous replacement, Chemistry, Stereochemistry, Dimer, Active site, Cell Biology, Biochemistry, chemistry.chemical_compound, Protein structure, Hydrolase, biology.protein, Binding site, Molecular Biology, Dehalogenase

Abstract

L-2-Haloacid dehalogenase catalyzes the hydrolytic dehalogenation of L-2-haloalkanoic acids to yield the corresponding D-2-hydroxyalkanoic acids. The crystal structure of the homodimeric enzyme from Pseudomonas sp. YL has been determined by a multiple isomorphous replacement method and refined at 2.5 A resolution to a crystallographic R-factor of 19.5%. The subunit consists of two structurally distinct domains: the core domain and the subdomain. The core domain has an alpha/beta structure formed by a six-stranded parallel beta-sheet flanked by five alpha-helices. The subdomain inserted into the core domain has a four helix bundle structure providing the greater part of the interface for dimer formation. There is an active site cavity between the domains. An experimentally identified nucleophilic residue, Asp-10, is located on a loop following the amino-terminal beta-strand in the core domain, and other functional residues, Thr-14, Arg-41, Ser-118, Lys-151, Tyr-157, Ser-175, Asn-177, and Asp-180, detected by a site-directed mutagenesis experiment, are arranged around the nucleophile in the active site. Although the enzyme is an alpha/beta-type hydrolase, it does not belong to the alpha/beta hydrolase fold family, from the viewpoint of the topological feature and the position of the nucleophile.

Published

1996

49. Bacterial 2-haloacid dehalogenases: structures and catalytic properties

Author

Chung Park, Kenji Soda, Tatsuo Kurihara, Vincenzo Nardi-Dei, Ji Quan Liu, Masaru Miyagi, Nobuyoshi Esaki, and Susumu Tsunasawa

Subjects

chemistry.chemical_classification, Reaction mechanism, Stereochemistry, General Chemical Engineering, Substrate (chemistry), Halogenation, General Chemistry, chemistry.chemical_compound, Hydrolysis, Enzyme, chemistry, Nucleophile, Carboxylate, Dehalogenase

Abstract

Haloacid dehalogenases (2-haloacid halidohydrolase; EC class: 3.8.1.2) catalyze the hydrolytlc dehalogenation of 2-haloalkanoic acids to produce the corresponding 2-hydroxyalkanoic acids. Four different groups of 2- haloacid dehalogenases have been found in bacterial cells. The carboxylate group of Asplo of L-2-haloacid dehalogenase acts as a nucleophile on the a-carbon of L-Zhaloalkanoic acid to form an ester intermdate, which is hydrolyzed to produce the corresponding 2-hydroxyalkanoic acid. In contrast, in the reaction of DL-Zhaloacid dehalogenase (inversion type), a water molecule activated by the enzyme directly attacks the a-carbon of the substrate. D-2-Haloacid dehalogenase shows sequence similarity to DL-Zhaloacid dehalogenase (inversion type), suggesting that the reaction mechanism of D-Zhaloacid dehalogenase is similar to that of DL-?-haloacid dehalogenase (inversion type). Only the DL-2-haloacid dehalogenase (retention type) reaction proceeds with retention of the C2-configuration of the substrate, and its reaction mechanism is probably different from those of other 2-haloacid dehalogenases.

Published

1996

50. Infectious Disease Fight Against Infectious Diseases

Author

Katsuhiko Kitamura, Kenji Soda, and Mitsuhiro Kamakura

Subjects

Disease surveillance, medicine.medical_specialty, Communicable disease, Epidemiology, business.industry, General Medicine, medicine.disease, Virology, Mathematical modelling of infectious disease, Infant mortality, Viral hemorrhagic fever, Vaccination, Infectious disease (medical specialty), Medicine, Smallpox, business, Intensive care medicine

Abstract

During early Meiji era in Japan, there were frequent epidemics of fatal acute communicable diseases such as cholera, dysentery and smallpox, and preventive measures and preparations for acute infectious diseases were urgently needed. Together with improvement of scientific preparations, the Communicable Disease Prevention Law was promulgated in 1897. Then gradually until 1940's, the focus of preventive measures have been shifted from acute infectious diseases to chronic ones, particularly tuberculosis. After the World War II, except the short period of social confusion, major legally-defined communicable diseases had been decreasing rapidly mainly due to the use of antibiotics and improvement of environmental sanitation. At the same time, the introduction of preventive vaccination marked a new era for the prevention of infectious diseases and was largely responsible for the remarkable decrease of infant mortality in Japan. Recently the concept of defense by vaccination against infectious diseases has evolved from group-oriented to individual-oriented, so that the Preventive Vaccination Law was drastically revised in 1994. Currently, effective counter-measures against newly emerged infectious diseases, as viral hepatitis, institution-acquired infection, viral hemorrhagic fever etc., have been implemented. For the future, improvement of infections disease surveillance, vaccine development and expansion of vaccination coverage along with monitoring side-effects, preventive health education on AIDS/STDs, addressing the special needs of foreigners living in Japan and international collaboration for disease control abroad are all vital to the success of protection of the public's health from infectious diseases in Japan.

Published

1996