Enzymatic Resolution of Racemic Amino Acids

The mold acylase of Aspergillus and Penicillium which hydrolyzes, asymmetrically, only the l-isomer of N-acylated dl-amino acids has been purified previously by the present authors. In this paper the application of asymmetric hydrolysis with the mold acylase to the resolution of N-acylated dl-amino acids, namely, acetylderivatives of dl-tryptophan, dl-leucine and dl-alanine is described. By this enzymatic procedure, the above amino acids were resolved in relatively good yields. It has been noted that the use of the mold acylase is suitable for general resolution of amino acid enantiomorphs of high optical purity.     

Protective Effect of dl-Threonine on Bacterial Cells during Freeeze-Drying and Ineffectiveness of its Optically Active Forms

dl-Threonine and dl-allothreonine showed a protective effect on various bacterial cells in the process of freeze-drying whereas l- and d-forms of them did not, probably owing to the difference in the physicochemical characteristics between l- (or d-) form and dl-form of the compounds in question. There was no difference in the protective activity between the optically active and inactive forms in the cases of serine, proline, tartaric acid and pyrrolidonecaboxylic acid.     

Occurrence of Plasmids in Zymomonas mobilis

A bacterium that stereospecifically produces l-valine from 5-isopropylhydantoin was isolated + from soil. It was identified as Bacillus brevis and given the number AJ-12299. l-Valine productivity from l-, d- or dl-5-isopropylhydantoin by B. brevis AJ-12299 was rather low because this bacterium had l-valine degrading-activity. In contrast, the productivity was improved by a mutant the l-valine degradation pathway of which was genetically blocked, and the 5-isopropylhydantoin consumed was stoichiometrically converted to l-valine. The optimal temperature and pH of the reaction were 30°C and 7.0~7.5. The enzyme involved in the reaction was inducible and was strongly induced by the addition of 5-isopropylhydantoin. In addition to l-valine production, this bacterium also produced various aliphatic and aromatic l-amino acids from the corresponding 5-substituted hydantoins.     

Direction of Asymmetric Induction in the Reaction of Pseudooxazolone-(5) with l-Proline Ester

It was observed that the dl-dipeptide derivative was formed predominantly over the ll-compound, only when l-Pro-OR was allowed to react as amino-component to the pseudooxazolone-(5), in contrast to the other l-amino acid esters. From the observation of the influence of the solvent, the added base and H-Gly-OMe, some of the mechanism in this reaction was discussed. The preparative isolation of the dl-compound from the reaction product, the synthesis of Tfp-l-Ileu-OH and the corresponding pseudooxazolone-(5) compound were also described.     

Studies on Metabolism of Pyrrolidone Carboxylic Acid in Bacteria

The present investigation is concerned with l-glutamic acid production in the presence of pyrrolidone carboxylic acid and glucose in Bacillus megaterium st. 6126. This strain does not grow on dl-pyrrolidone carboxylic acid (dl-PCA)¹⁾ as the sole source of carbon and nitrogen. The optimal concentration of yeast extract required for the maximal production of l-glutamic acid was 0.005% under the conditions used. As the yeast extract concentration was increased, growth increased proportionally; but the l-glutamic acid production did not exceed the control’s to which glucose and ammonium chloride had been added. l-Glutamic acid produced by both growing cultures and resting cells was derived from glucose and ammonium salt of dl-PCA. Isotope experiments suggested that the l-glutamic acid produced was partially derived from ammonium salt of dl-PCA in the growing culture which had been supplemented with d-glucose-U-¹⁴C or dl-PCA-1-¹⁴C and that ammonium salt of dl-PCA was consumed as the source of nitrogen and carbon for l-glutamic acid.     

Optimal Conditions for the Enzymatic Production of l-Aromatic Amino Acids from the Corresponding 5-Substituted Hydantoins

The reaction conditions for the production of l-tryptophan from dl-5-indolyl- methylhydantoin by Flavobacterium sp. AJ-3940, and the cultural conditions for the formation of the enzyme involved by this bacterium were investigated. The optimal pH of this reaction was around 8.5 and the optimal temperature was between 45 to 55°C. The amount of l-tryptophan produced was remarkably increased by the addition of inosine, which formed a water insoluble adduct with l-tryptophan, to the reaction mixture because of the release of end-product inhibition by l-tryptophan. This enzyme was inducibly and intracellularly produced by Flavobacterium sp. AJ-3940 in proportion to the increase in cell growth. Cells showing high activity were obtained using a medium containing 5 g glucose, 5 g (NH₄)₂SO₄, 1 g KH₂PO₄, 3 g K₂HPO₄, 0.1 g MgSO₄ · 7H₂O, 0.01 g CaCl₂ · 2H₂O, 50 ml corn steep liquor and 3.5 g dl-5-indolylmethylhydantoin in a total volume of 1 liter (pH 7.0). Under the best conditions, 43 mg/ml of l-tryptophan was produced from 50 mg/ml of dl-5-indolylmethylhydantoin with a molar yield of 97% in the presence of cells of Flavobacterium sp. AJ-3940. In addition, other l-aromatic amino acids such as l-phenylalanine, l-tyrosine, l-DOPA and related l-amino acids were also produced from the corresponding 5-substituted hydantoins by this bacterium containing the l-tryptophan-producing enzyme induced by dl-5-indolylmethylhydantoin.     

Cultural Conditions for l-Leucine Production by Strain No. 218, a Mutant of Brevibacterium lactofermentum 2256

The excellent l-leucine producing mutant No. 218, derived from a biotin requiring glutamic acid producing strain, is methionine and isoleucine auxotrophic. A suboptimum growth condition made by adding a limiting amount of isoleucine was necessary for the maximum production of l-leucine. On the other hand, methionine was indifferent to the productivity if sufficiently supplied for growth.

Biotin of more than 50 μg/liter caused the accumulation of l-leucine; less than 50 μg/liter, however, gave a drastic change in accumulation pattern from l-leucine to l-glutamic acid. Strain No. 218 produced 28 mg/ml of l-leucine after 72 hr cultivation when 13 % glucose was supplied as a carbon source, thus giving the yield of 21.6%.

Effects on l-leucine production of concentrations of inorganic salts, pH, temperature and aeration were also investigated.     

Genetic Changes of Regulatory Mechanisms Occurred in Leucine and Valine Producing Mutants Derived from Brevibacterium lactofermentum 2256

The regulatory mechanisms in branched-chain amino acid synthesis were compared between 2-thiazolealanine (2-TA) resistant l-leucine and l-valine producing mutants and the 2-TA sensitive original strains of Brevibacterium lactofermentum 2256.

In the original strains, sensitive to 2-TA, α-isopropylmalate (IPM) synthetase, the initial enzyme specific for l-leucine synthesis, is sensitive to feedback inhibition and to repression by l-leucine, and α-acetohydroxy acid (AHA) synthetase, the common initial enzyme for synthesis of l-isoleucine, l-valine as well as l-leucine, is sensitive to feedback inhibition by each one of these amino acids, and to repression by them all. In strain No. 218, a typical l-leucine producer resistant to 2-TA, IPM synthetase was found to be markedly desensitized and derepressed, and AHA synthetase remained unaltered. On the contrary, in strain No. 333, l-valine producer resistant to 2-TA, AHA synthetase was found to be desensitized and partially derepressed, and IPM synthetase remained unaltered.

The genetic alteration of these regulatory mechanisms was discussed in connection with the accumulation pattern of amino acids.     

Studies on Metabolism of Pyrrolidone Carboxylic Acid in Bacteria

l-Glutamic acid was formed from d-, l-, and dl-PCA with cell-free extract of Pseudomonas alcaligenes ATCC-12815 grown in the medium containing dl-PCA as a sole source of carbon and nitrogen. The enzyme(s) involved in this conversion reaction was distributed in the soluble fraction within the cell and in 0.5 saturated fraction at the fractionation procedure with the saturation of ammonium sulfate. Optimum pH of this enzyme(s) lied at pH 8.5 and optimum temperature was 30°C. Cu (5 × 10^?3 m) inhibited the reaction considerably while Ca or Fe accelerated it. PALP (1×10^?3 m) also gave an enhanced activity to some extent. The enzyme preparation converted dextro-rotatory enan-thiomorph of PCA to its laevo-rotatory one which in turn was not converted to the opposite rotation direction by this enzyme. Furthermore, the preparation did not, if any, show d-glutamic acid racemase activity. Isotopic experiments with using dl-PCA-1-¹⁴C revealed that l-glutamic acid-1-¹⁴C was formed by the cleavage of –CO–NH– bond of pyrrolidone ring of PCA. It was concluded that dl-PCA when assimilated by the present bacterium is at first transformed to l-PCA by the optically isomerizing enzyme and subsequently is cleaved to l-glutamic acid probably by the PCA hydrolysing enzyme.     

Formation of 2-(5-Hyclroxymethyl-2-formylpyrrol-1-yl)alkyl Acid Lactones on Roasting Alkyl-α-amino Acid with d-Glucose

d-Glucose and several alkyl-α-amino acids (glycine, dl-α-alanine, dl-α-amino-n-butyric acid, l-valine, l-leucine and dl-α-amino-n-caproic acid) were roasted at 200°C or 250°C in a simple two components system. From the roasting products were newly isolated a series of 2-(5-hydroxymethyl-2-formylpyrrol-1-yl)alkyl acid lactones which were characterized by elementary analysis, UV, IR, MS (GC-MS) and NMR spectra.

These lactones have characteristic aroma which may contribute to the flavor produced by sugar-amino acid reaction. The subjective evaluation of aroma of the lactones obtained wrere as follows: 2-(5-hydroxymethyl-2-formyipyrrol-1-yl)propionic acid lactone, caramel and a little scorching; -n-butyric acid lactone, maple and strong sweet; isovaleric acid lactone and isocaproic acid lactone, miso, soy sauce and a little chocolate-like.     

Enzymatic Production of l-Tryptophan from l- and dl-5-Indolyl-methylhydantoin by Newly Isolated Bacterium

Bacteria which can hydrolyze dl-5-indolylmethylhydantoin to l-tryptophan were isolated from various soils. The dl-5-indolylmethylhydantoin-hydrolyzing enzymes were found to be inducible and intracellular. With intact cells, 50 mg/ml as wet base, of newly isolated bacterial strain T-523, 10 mg/ml of dl-5-indolylmethylhydantoin dissapeared and 7.4 mg/ml of l-tryptophan in a molar yield of 82% was produced after 35 hr incubation. Tryptophan produced was confirmed to be l-form regardless of the stereoisomer of the substrates used. A mechanism of asymmetric hydrolysis of dl -5-indolyImethylhydantoin was discussed.     

Properties of Revertants Appearing in l-Leucine Fermentation Culture Broth

The l-leucine productivity of an l-leucine producing strain, H-1204, of Corynebacterium glutamicum substantially decreased during a large-scale culture or repetitive subculturing. This instability was found to be due to the appearance of revertants with lower or no l-leucine productivity. Strains in the culture broth could be roughly classified into three types on the basis of their phenotypes: l-type, original l-leucine producing strain, Val^L Leu⁺ (valine leaky); M-type, Val⁺ Leu⁺ (prototroph); V-type, Val⁺ Leu^- (leucine auxotroph). The appearance of these revertants was determined to be caused by the distribution imbalance of α-ketoisovaleric acid, the common precursor for l-leucine and l-valine biosynthesis.     

Branched Chain Amino Acid Aminotransferase of Pseudomonas sp

Branched chain amino acid aminotransferase was partially purified from Pseudomonas sp. by ammonium sulfate fractionation, aminohexyl-agarose and Bio-Gel A-0.5 m column chromatography.

This enzyme showed different substrate specificity from those of other origins, namely lower reactivity for l-isoleucine and higher reactivity for l-methionine.

Km values at pH 8.0 were calculated to be 0.3 mm for l-leucine, 0.3 mm for α-ketoglutarate, 1.1 mm for α-ketoisocaproate and 3.2 mm for l-glutamate.

This enzyme was activated with β-mercaptoethanol, and this activated enzyme had different kinetic properties from unactivated enzyme, namely, Km values at pH 8.0 were calculated to be 1.2 mm for l-leucine, 0.3 mm for α-ketoglutarate.

Isocaproic acid which is the substrate analog of l-leucine was competitive inhibitor for pyridoxal form of unactivated and activated enzymes, and inhibitor constants were estimated to be 6 mm and 14 mm, respectively.     

Inhibition of Yeast Growth by Methionine

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.     

Enzymatic Resolution of Racemic Amino Acids

The present paper is concerned with the availability of the acyl derivatives of lysine for the growth of young rats in the course of studying the enzymatic resolution of dl-lysine with mold acylase. The enzymatic resolution of dl-lysine to optically-active l and d-isomers was carried out in either of the following two ways, namely, the asymmetric hydrolysis of diacetyl-dl-lysine or that of ε-benzoyl-α-acetyl-dl-lysine.

The oral administration of ε-acetyl-l-lysine to rats fed on the lysine-deficient diet supported the growth of young rats at a rate approximately two-thirds of that observed when l-lysine was supplied. ε-Benzoyl-l-lysine proved to be quite ineffective while diacetyl lysine showed a slight but insignificant increase in body weight.     

Pyrolysis of Sulfur-containing Amino Acids

Sulfur-containing amino acids (l-cysteine, l-cystine and dl-methionine) were pyrolyzed. From pyrolyzed cysteine and cystine were identified 7~8 volatile compounds including 2-methylthiazolidine which is considered to be the product of the reaction of acetaldehyde with mercaptethylamine, and from pyrolyzed methionine were identified 11 volatiles. At the same time, besides these volatile compounds, alanine, cystine and isoleucine, and alanine, isoleucine and methionine were detected in the pyrolyzed products of cysteine and cystine, respectively, but no amino acid was detected from that of methionine. The mixture of seven identified volatiles generated from l-cystine developed a pop-corn like aroma with a roasted sesame like one, and methylmercaptane seemed to be the main contributor to the pickled radish like odor produced from pyrolysis of dl-methionine. Degradation schemes of cystine and methionine were proposed.     

Elimination,Replacement and Isomerization Reactions by Intact Cells Containing Tyrosine Phenol Lyase

Tyrosine phenol lyase catalyzes a series of α,β-elimination, β-replacement and racemization reactions. These reactions were studied with intact cells of Erwinia herbicola ATCC 21434 containing tyrosine phenol lyase.

Various aromatic amino acids were synthesized from l-serine and phenol, pyrocatechol, resorcinol or pyrogallol by the replacement reaction using the intact cells. l(d)-Tyrosine, 3,4-dihydroxyphenyl-l(d)-alanine (l(d)-dopa), l(d)-serine, l-cysteine, l-cystine and S-methyl-l-cysteine were degraded to pyruvate and ammonia by the elimination reaction. These amino acids could be used as substrate, together with phenol or pyrocatechol, to synthesize l-tyrosine or l-dopa via the replacement reaction by intact cells. l-Serine and d-serine were the best amino acid substrates for the synthesis of l-tyrosine or l-dopa. l-Tyrosine and l-dopa synthesized from d-serine and phenol or pyrocatechol were confirmed to be entirely l-form after isolation and identification of these products. The isomerization of d-tyrosine to l-tyrosine was also catalyzed by intact cells.

Thus, l-tyrosine or l-dopa could be synthesized from dl-serine and phenol or pyrocatechol by intact cells of Erwinia herbicola containing tyrosine phenol lyase.     

Optimization of immobilized Candida rugosa lipase LIP2-catalyzed resolution to produce l-menthyl acetate

Esterification of l-menthol by lipase is a highly selective method for the resolution of dl-menthol. The present work focuses on the reaction parameters that affect lipase-catalyzed synthesis of l-menthyl acetate in n-hexane using triacetin as acyl donor. Genetically engineered LIP2, an isoform of Candida rugosa lipase, was used as a biocatalyst in the present study. The main objectives of the work were to develop an approach that would enable a better understanding of relationships between the variables (reaction time, temperature, enzyme amount, substrate molar ratio) and the response (molar conversion) for l-menthyl acetate synthesis, and to obtain the optimum conditions for synthesis. By using central composite rotatable design (CCRD) and response surface methodology (RSM) analysis, we found that substrate molar ratio and enzyme amount were the most important variables for the reaction. Based on ridge max analysis, the optimum synthesis conditions were found to be: reaction time 2.2 days, temperature 34.3°C, enzyme amount 0.09 g and substrate molar ratio (dl-menthol:triacetin) 1:1.9, and molar conversion of dl-menthol to l-menthyl acetate was calculated to be 50%. An experiment under optimum conditions was carried out and molar conversion of 48.3% was obtained.     

Studies on Amino Acids. II

The enzymatic procedures for the resolution of dl-lysine such as asymmetric synthesis of acyl l-lysinc anilide and acyl dl-lysines have been studied. As a result, the procedure consisting in the enzymatic asymmetric hydrolysis of ε-benzoyl-α-acctyl-dl-lysine was found to be the most advantageous for the resolution of dl-lysine.     

Taurine Levels in Some Tissues of Yellowtail (Seriola quinqueradiata) and Mackerel (Scomber japonicus)

The mechanism of stereospecific production of l-amino acids from the corresponding 5-substituted hydantoins by Bacillus brevis AJ-12299 was studied. The enzymes involved in the reaction were partially purified by DEAE-Toyopearl 650M column chromatography and their properties were investigated. The conversion of dl-5-substituted hydantoins to the corresponding l-amino acids consisted of the following two successive reactions. The first step was the ring-opening hydrolysis to N-carbamoyl amino acids catalyzed by an ATP dependent l-5-substituted hydantoin hydrolase. This reaction was stereospecific and the N-carbamoyl amino acid produced was exclusively the l-form. N-Carbamoyl-l-amino acid was also produced from the d-form of 5-substituted hydantoin, which suggests that spontaneous racemization occurred in the reaction mixture. In the second step, N-carbamoyl-l-amino acid was hydrolyzed to l-amino acid by an N-carbamoyl-l-amino acid hydrolase, which was also an l-specific enzyme. The ATP dependency of the l-5-substituted hydantoin hydrolase was supposed to be the limiting factor in the production of l-amino acids from the corresponding 5-substituted hydantoins by this bacterium.