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1.
Certain Streptomyces strains were found to accumulate an unknown substance in culture broth when the microorganisms were grown in the medium containing dl-methionine. The substance was isolated from the culture broth as hydrochloride and was identified as 3-methylthiopropylamine (MTPA), decarboxylated product of methionine, from its melting point, chemical composition, infrared spectrum, and other properties. Cultural conditions for MTPA formation in Streptomyces sp. K 37 were investigated. The yield of MTPA from l-methionine reached about 90% with a culture medium containing corn steep liquor. Namely, 6.47 mg of MTPA per millilitre of culture broth was produced from 10 mg of l-methionine per millilitre of the growth medium. The transforming activity was found in the cells of the early culture period. MTPA-producing activity was induced by l- methionine in the medium. d-Methionine was not utilized as a substrate of the reaction with intact cells. Optimum pH for the reaction appeared to be 6.0~8.0.  相似文献   

2.
A bacterial strain, NS671, which converts DL-5-(2-methylthioethyl)hydantoin stereospecifically to L-methionine, was isolated from soil and was classified into the genus Pseudomonas. With growing cells of Pseudomonas sp. strain NS671, DL-5-(2-methylthioethyl)hydantoin was effectively converted to L-methionine. Under adequate conditions, 34g of L-methionine per liter was produced with a molar yield of 93% from DL-5-(2-methylthioethyl)hydantoin added successively. In addition to L-methionine, other amino acids such as L-valine, L-leucine, L-isoleucine, and L-phenylalanine were also produced from the corresponding 5- substituted hydantoins, but these L-amino acids produced were partially consumed by strain NS671. The hydantoinase, by which 5-substituted hydantoin rings are opened, was ATP-dependent. The N-carbamylamino acid amidohydrolase was found to be strictly L-specific, and its activity was inhibited by high concentration of ATP.  相似文献   

3.
3-Methylthiopropylamine (MTPA) formation from l-methionine in Streptomyces sp. K37 was studied in detail. The reaction was confirmed to be catalyzed by the decarboxylase of l-methionine. The properties of the enzyme were studied in detail using acetone dried cells or cell-free extract. The enzyme was specific for l-methionine. Pyridoxal phosphate stimulated the reaction and protected the enzyme against heat inactivation. The optimum pH for the reaction was 6.0~8.0 and the optimum temperature was about 40°C. Carbonyl reagents (10?2~10?3 m) inhibited the reaction completely, and silver nitrate and mercuric chloride (10?3~10?4 m) markedly inhibited the reaction. Km value for the reaction was 1.21 × 10?5 m. l-Methionine assay using the decarboxylase was attempted and was found to be applicable to practical use.  相似文献   

4.
The accumulation of S-adenosylmethionine in adenine-requiring yeast cells grown in a culture medium containing dl-, l-, or d-methionine was much larger than that in cells grown in a methionine-free medium. The accumulation of S-adenosyl-d-methionine in the cells was significantly lower than that of S-adenosyl-l-methionine. When yeast cells containing a large amount of S-adenosyl-l-methionine were incubated in an adenine-free medium, adenosylmethionine was degraded, but poor and insignificant growth was observed indicating the meager nature of this compound as an adenine source. No degradation of accumulated S-adenosyl-d-methionine was detected. Isotopic experiment revealed that S-adenosyl-l-methionine in the yeast cells turned over at a considerable rate when the medium contained both adenine and l-methionine. Most of the l-methionine assimilated appears to be metabolized via S-adenosyl-l-methionine.  相似文献   

5.
Culture conditions for the preparation of cells containing high tyrosine phenol lyase activity were studied with Erwinia herbicola ATCC 21434. Adding pyridoxine to the medium enhanced enzyme formation, suggesting that it was utilized as a precursor of the coenzyme, pyridoxal phosphate. Glycerol plus succinic acid; amino acids, such as, DL-methionine, DL-alanine and glycine; and metallic ion, ferrous ion promoted enzyme formation as well as cell growth. Adding L-tyrosine, as inducer, to the culture medium was essential for enzyme formation. However, when large amounts of L-tyrosine were added, the enzyme formation was repressed by the phenol liberated from L-tyrosine. In fact, formation of the enzyme was enhanced by removing phenol during cultivation. L(D)-Phenylalanine or phenylpyruvic acid had a synergistic effect on the induction of enzyme by L-tyrosine.

Cells with high enzyme activity were prepared by growing cells at 28°C for 28 hr in a medium containing 0.2% L-tyrosine, 0.2% KH2PO4, 0.1% MgSO47H2O, 0.001% FeSO7H2O, 0.01% pyridoxine-HC1, 0.6% glycerol, 0.5% succinic acid, 0.1% DL-methionine, 0.2% DL-alanine, 0.05% glycine, 0.1% L-phenylalanine and 120 ml/liter hydrolyzed soybean protein in tap water with the pH controlled at 7.5 throughout cultivation.  相似文献   

6.
d-Aminoacylase was found to be produced not only by S. olivaceus 62–3 isolated from soil but also by three strains of type culture of Streptomyces species. All four of these strains produced d-aminoacylase intracellularly only when an inducer was added to the culture medium. d-Amino acids or N-acetyl-d-amino acids were effective as inducers.

As S. tuirus showed the highest d-aminoacylase activity, the enzyme extract of this strain was subjected to further investigation to determine the optimal conditions for optical resolution of N-acetyl-dl-phenylglycine. Almost all contaminating l-aminoacylase in the enzyme extract could be eliminated by DEAE-Sephadex adsorption. d-Phenylglycine of 99.9% optical purity was obtained after complete hydrolysis of d-isomer with the use of d-aminoacylase solution.  相似文献   

7.
New devices for resolution of DL-phenylalanine by an enzymatic method have been developed by using ammonium N-acetyl-DL-phenylalanate as a substrate. In this procedure, crystals of l-phenylalanine and ammonium N-acetyl-d-phenylalanate are separated alternately or simultaneously from reaction mixtures containing acylase, as first crops. The whole resulting solution including acylase can be reused. Ammonium acetate formed as a by-product was found to inhibit the enzyme.  相似文献   

8.
The α-d-galactosidases of six Streptomyces strains were examined on their inducer susceptibility, substate specificity, and inhibitor susceptibility. In all strains examined, α-d-galactosidase was induced by d-galactose, but neither by d-fucose nor by l-arabinose. α-d-Fucosidase activity was always induced accompanying with α-d-galactosedase activity. β-l-Arabinosidase activity, however, was never observed. These α-d-galactosidases were purified to electrophoretically pure degree by successive ammonium sulfate and ethanol precipitation, and ion exchange and gel filtration chromatography. The purified preparations from six strains were different from each other in their chromatographic behaviors and in some physical properties, but they all showed strong α-d-fucosidase activity as well. The α-d-galactosidase activities were strongly inhibited by d-galactose and l-arabinose, but scarcely by d-fucose. On the other hand, their α-d-fucosidase activities were inhibited by d-fucose as well as by d-galactose and l-arabinose.  相似文献   

9.
Two amino acid derivative antibiotics, hadacidin and duazomycin A, were isolated as inhibitors of de novo starch synthesis in excised leaf segments from culture filtrates of Penicillium No. 467 and Streptomyces No. 317, respectively. In addition, azaserine, 6-diazo-5-oxo-l-norleucine (DON), and trifluoro-dl-methionine were found to be potent inhibitors among about 70 kinds of commercial amino acid derivatives. These amino acid derivatives inhibited de novo starch synthesis at concentrations ranging from 1 to 10ppm but did not inhibit photosynthetic oxygen evolution at a concentration of 100ppm. The inhibition caused by these diazo compounds was reversed by a supplement of l-glutamine. With hadacidin and trifluoro-dl-methionine, however, the reversal was not observed upon the addition of l-aspartic acid or l-methionine, respectively. Among these active compounds, hadacidin was herbicidal against lettuce and barnyard millet by foliar treatment at a concentration of more than 1000 ppm.  相似文献   

10.
d-Ribose-5-phophate ketol-isomerase (EC 5.3.1,6), d-ribuIose-5-phosphate 3-epimerase (EC 5.1.3.1) and d-sedoheptulose-7-phosphate: d-gIyceraldehyde-3-phosphate glycolaldehyde-transferase (EC 2.2.1,1) have been partially purified. d-Ribose-5-phosphate ketol-isomerase was purified from spinach by column chromatography with DEAE-cellulose and DEAE-Sephadex A-50; d-ribulose-5-phosphate 3-epimerase was purified from baker’s yeast by column chromatography with DEAE-cellulose; and d-sedoheptulose-7-phosphate: d-glyceraldehyde-3-phosphate glycolaldehydetransferase was purified from a Bacillus species No. 102 mutant G3–46–22–6 by column chromatography with DEAE-cellulose. The preparations were used for the determination of the activities of these enzymes in the parent and d-ribose-forming mutants of a Bacillus species.  相似文献   

11.
The physico-chemical properties of the purified glucose isomerases [d-xylose ketol isomerase, EC 5.3.1.5] of Streptomyces olivochromogenes and Bacillus stearothennophilus were examined. The molecular size and shape of both enzymes were similar. The molecular weights, sedimentation coefficients, partial specific volumes, diffusion constants and Stokes’ radii of the Streptomyces and Bacillus enzymes were determined to be 120,000 and 130,000, 7.55 S and 9.35 S, 0.725 and 0.736 ml/g, 5.87 × 10-7 and 6.82 × 10-7 cm2/sec, and 51 and 53 Å, respectively. The Streptomyces glucose isomerase was found to consist of two subunits, each having a molecular weight of 56,000. Large differences were found in the amino acid compositions of these two enzymes, especially in their serine, proline, tyrosine, lysine and arginine contents. The enzymatic properties of both these purified glucose isomerases were also examined, and it was seen that they both displayed activity on d-xylose, d-xylulose, d-glucose, d-fructose, d-arabinose and d-ribose. The smaller Km values and the larger molecular activities for d-xylose and d-xyluIose indicated that both enzymes are essentially d-xylose isomerases. The optimum temperature was 80°C for both enzymes. The optimum pH was 8 to 10 for the Streptomyces enzymes and 7.5 to 8.0 for the Bacillus enzyme. The Bacillus enzyme was more thermostable than the Streptomyces enzyme, but required cobalt ions in addition to magnesium ions for the full expression of its activity.  相似文献   

12.
The crystalline d-mannitol dehyrogenase (d-mannitol:NAD oxidoreductase, EC 1.1.1.67) catalyzed the reversible reduction of d-fructose to d-mannitol. d-Sorbitol was oxidized only at the rate of 4% of the activity for d-mannitol. The enzyme was inactive for all of four pentitols and their corresponding 2-ketopentoses. The apparent optimal pH for the reduction of d-fructose or the oxidation of d-mannitol was 5.35 or 8.6, respectively. The Michaelis constants were 0.035 m for d-fructose and 0.020 m for d-mannitol. The enzyme was also found to be specific for NAD. The Michaelis constans were 1 × 10?5 m for NADH2 and 2.7 × 10?4 m for NAD.  相似文献   

13.
Ethionine-resistant mutants derived from Corynebacterium glutamicum KY 9276 (Thr?) were found to accumulate l-methionine in culture media. One of the mutants, ER-107-4, which produced 250 μg/ml of l-methionine was subjected to further mutagenesis to obtain better l-methionine producers. l-Methionine production increased stepwise by successive endowing such markers as selenomethionine, 1,2,4-triazole, trifluoromethionine and methionine hydroxamate resistance. Thus, a mutant multi-resistant to ethionine, selenomethionine and methionine hydroxamate, ESLMR-724, produced 2 mg/ml of l-methionine in a medium containing 10% glucose.

Increase of l-methionine production was accompanied by increased levels and reduced repressibility of methionine-forming enzymes. The levels of methionine enzymes in ESLMR-724 increased to 2.5~4.2 fold of those in KY9276, In addition, homoserine-O-trans-acetylase and cystathionine γ-synthase which were strongly repressed by l-methionine in KY 9276 were stimulated by exogenous l-methionine in ESLMR-724. Implications of these results were discussed in relation to the productivity of l-methionine and the regulation of l-methionine biosynthesis.  相似文献   

14.
Production of d-xylose and l-arabinose isomerases by lactic acid bacteria was greatly promoted by the addition of manganese ions in cultural medium. Effective concentration of the ions was 5 × 1O-3 m. Ferrous ions were also effective for the production of d-xylose isomerase and cobaltous ions were somewhat effective for the production of l-arabinose isomerase. Zinc and cadmium ions inhibited bacterial growth. It was possible to increase the production of isomerase by changing MnSO4 concentration to 5× 10-3 m (0.l1 %) in place of 0.001 per cent in the normal medium.

Column chromatographic procedures for the purification of pentose isomerases were carried out. Cation and anion exchange resins were not suitable because of their low exchange capacities and instability of the enzyme at acidic pH range. But the isomerases were successfully purified by DEAE-cellulose column chromatography with high recovery (85~90%). Using a Tris buffer, KCl concentration was increased in gradient. d-Xylose isomerase was eluted at pH 7.0 at 0~0.2 m KCl, and l-arabinose isomerase at pH 8.0 at 0~0.4 m KCl. The purified isomerases, d-xylose isomerase and l-arabinose isomerase, both required manganese ions specifically for their activities.

D-Xylose isomerase and l-arabinose isomerase are different enzymes which can be separated from each other with acetone fractionation at pH 4.8~5.0, heat treatment or chromatography on a colnmn of DEAE-cellulose. In DEAE-cellulose chromatography with a linear gradient elution method, d-xylose isomerase is recovered in the first peak at pH 7.0 (Tris bnffer) with 0~0.2 m KCl, and l-arabinose isomerase is eluted in the second peak at pH 8.0 (Tris buffer) with a larger ionic strength.  相似文献   

15.
Pichia quercibus Phaff et Knapp produced xylitol and d-xylonic acid by aerobic dissimilation of d-xylose at good yield of 40% of sugar consumed. The products were isolated from the fermented broth and identified. It would be interesting that both of xylitol, a reduction product of d-xylose, and d-xylonic acid, an oxidation product, are accumulated in the fermented broth.  相似文献   

16.
2-Methylcitrate dehydratase (2-methylcitrate hydro-lyase), a new enzyme functioning at the methylcitric acid cycle of propionyl-CoA oxidation, was present in the cell-free extract of Yarrowia (Saccharomycopsis) lipolytica. The enzyme was separated from the usual aconitate hydratase (EC 4.2.1.3) of the yeast with DEAE-Sephadex A-50 column chromatography. The enzyme was able to catalyze a reversible reaction between 2-methylcitrate and 2-methyl-cis-aconitate, but showed no activity on threo-ds-2-methylisocitrate, citrate, cis- or trans-aconitate, threo-ds-, threo-DL- or erythro-ls-isocitrate, DL-homocitrate or other hydroxy-acids tested.

In contrast, the other enzyme fraction separated as aconitate hydratase by chromatography showed no activity on synthetic 2-methylcitrate, but was able to catalyze strongly a reversible reaction between 2-methyl-cis-aconitate and threo-ds-2-methylisocitrate.

From these findings, the previously proposed cycle sequence was revised at the following broken arrows: propionyl-CoA+oxaloacetate → (CoASH+) 2-methylcitrate ? 2-methyl-cis-aconitate ? threo-ds-2-methylisocitrate → pyruvate+succinate (→→oxaloacetate).

2-Methylcitrate dehydratase showed maximum activity at pH 6.5 to 7.0 and at 25 to 40°C. The enzyme was stable at temperatures up to 40°C and at pH 6.5 to 7.5, but labile in Tris-HCl buffer. The synthesis of this enzyme was constitutive in this yeast, although it was slightly repressed by glucose.  相似文献   

17.
Peptidoglycan portion was isolated from the hydrolysate of Streptomyces roseochromogenes IAM 53 cell walls after hydrolysis with egg white lysozyme. Further hydrolysis by the Flavobacterium lytic enzyme gave rise to a disaccharide and two types of peptides. The disaccharide was β-1, 4-N-acetylglucosaminyl-N-acetylmuramic acid. The main type of peptide was l-alanyl-d-isoglutaminyl-(glycyl-) ll-diaminopimelyl-d-alanine, and d-alanine was missing in the minor type of peptide. Edman degradation and partial hydrolysis of the peptide oligomer revealed the major type of peptidoglycan which was characterized by the presence of ll-diaminopimelic acid and cross-linkage of single glycine. Other species of Streptomyces seemed to have the same type of peptidoglycan as that of S. roseochromogenes.  相似文献   

18.
The acceptor specificity of amylomaltase from Escherichia coli IFO 3806 was investigated using various sugars and sugar alcohols. d-Mannose, d-glucosamine, N-acetyl- d-glucosamine, d-xylose, d- allose, isomaltose, and cellobiose were efficient acceptors in the transglycosylation reaction of this enzyme. It was shown by chemical and enzymic methods that this enzyme could transfer glycosyl residues only to the C4-hydroxyl groups of d-mannose, iY-acetyl- d-glucosamine, d-allose, and d-xylose, producing oligosaccharides terminated by 4–0-α-d-glucopyranosyl-d-mannose, 4–0-α-d-glucopyranosyl-yV-acetyl-d-glucosamine, 4-O-α-d-glucopyranosyl-d-allose, and 4–0-α-d-gluco- pyranosyl-d-xylose at the reducing ends, respectively.  相似文献   

19.
Polyol dehydrogenases of Acetobacter melanogenum were investigated. Three polyol dehydrogenases, i. e. NAD+-linked d-mannitol dehydrogenase, NAD+-linked sorbitol dehydrogenase and NADP+-linked d-mannitol dehydrogenase, in the soluble fraction of the organism were purified 12-fold, 8-fold and 88-fold, respectively, by fractionation with ammonium sulfate and DEAE-cellulose column chromatography. NAD+-linked sorbitol dehydrogenase reduced 5-keto-d-fructose (5KF) to l-sorbose in the presence of NADH, whereas NADP+-linked d-mannitol dehydrogenase reduced the same substrate to d-fructose in the presence of NADPH. It was also shown that NAD+-linked d-mannitol dehydrogenase was specific for the interconversion between d-mannitol and d-fructose and that this enzyme was very unstable in alkaline conditions.  相似文献   

20.
The mechanism of asymmetric production of d-amino acids from the corresponding hydantoins by Pseudomonas sp. AJ-11220 was examined by investigating the properties of the enzymes involved in the hydrolysis of dl-5-substituted hydantoins. The enzymatic production of d-amino acids from the corresponding hydantoins by Pseudomonas sp. AJ-11220 involved the following two successive reactions; the d-isomer specific hydrolysis, i.e., the ring opening of d-5-substituted hydantoins to d-form N-carbamyl amino acids by an enzyme, d-hydantoin hydrolase (d-HYD hydrolase), followed by the d-isomer specific hydrolysis, i.e., the cleavage of N-carbamyl-d-amino acids to d-amino acids by an enzyme, N-carbamyl-d-amino acid hydrolase (d-NCA hydrolase).

l-5-Substituted hydantoins not hydrolyzed by d-HYD hydrolase were converted to d-form 5- substituted hydantoins through spontaneous racemization under the enzymatic reaction conditions.

It was proposed that almost all of the dl-5-substituted hydantoins were stoichiometrically and directly converted to the corresponding d-amino acids through the successive reactions of d-HYD hydrolase and d-NCA hydrolase in parrallel with the spontaneous racemization of l-5-substituted hydantoins to those of dl-form.  相似文献   

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