Effect of amino acids on growth ofSphaerotilus discophorus

The effect of casein hydrolysate, of mixtures of amino acids and of individual amino acids on the growth of 4 strains ofSphaerotilus discophorus was determined. Growth was virtually completely inhibited by 1.0% Bacto Casamino Acids, 0.54% simulated casein hydrolysate and 0.2% of a uniform mixture of 18 amino acids. The latter were prepared withl amino acids except thatdl-serine,dl-valine anddl-threonine were present in the uniform amino acid mixture.Experiments designed to test the toxicity of the 18 individual amino acids at 0.018 – 0.36% concentration indicated that arginine, glutamic acid, leucine, lysine and proline were non-toxic. However, aspartic acid and methionine were moderately toxic; growth was greatly repressed at a concentration of 0.36%. The remaining 11 amino acids which included alanine, cystine, glycine, tyrosine, histidine, isoleucine, phenylalanine, serine, threonine, tryptophane and valine were the most toxic of the group. They prevented growth partially or completely, at a concentration of 0.18% or 0.36%.dl-Serine anddl-valine were especially toxic and prevented growth at a concentration of 0.018%. The toxicity of the individuall-amino acids can account for the toxicity of Casamino Acids and simulated casein hydrolysate. l-Methionine or cyanocobalamin (vitamin B₁₂) is required for the growth ofS. discophorus. Alsod- anddl-methionine can replace cyanocobalamin although they completely repress growth when used at the relatively high concentration of 200 µg per ml of medium.     

Racemic Resolution of some <Emphasis Type="SmallCaps">dl</Emphasis>-Amino Acids using <Emphasis Type="Italic">Aspergillus fumigatus</Emphasis><Emphasis Type="SmallCaps">l</Emphasis>-Amino Acid Oxidase

The ability of Aspergillus fumigatus l-amino acid oxidase (l-aao) to cause the resolution of racemic mixtures of dl-amino acids was investigated with dl-alanine, dl-phenylalanine, dl-tyrosine, and dl-aspartic acid. A chiral column, Crownpak CR+ was used for the analysis of the amino acids. The enzyme was able to cause the resolution of the three dl-amino acids resulting in the production of optically pure d-alanine (100% resolution), d-phenylalanine (80.2%), and d-tyrosine (84.1%), respectively. The optically pure d-amino acids have many uses and thus can be exploited industrially. This is the first report of the use of A. fumigatus l-amino acid oxidase for racemic resolution of dl-amino acids.     

Bacterial assimilation of d- and l-2-chloropropionates and occurrence of a new dehalogenase

The occurrence of a new bacterial dehalogenase acting on both the optical isomers of 2-halogenated alkanoic acids was demonstrated. When the haloalkanoic acid-utilizing bacteria were screened in a medium containing dl-2-chloropropionate as a sole carbon source, two types of bacteria were isolated: (1) a few strains utilizing both d- and l-isomers of 2-chloropropionate and (2) strains utilizing only the l-isomer. A dehalogenating enzyme was obtained from the cells of Pseudomonas sp. which is able to utilize both isomers. The crude enzyme catalyzed the dehalogenation of d- and l-2-chloropropionates to yield l- and d-isomers of lactate, respectively. The enzyme showed the same pH optimum and heat inactivation rate for the d- and l-isomers. Apparent K _m values for d- and l-2-chloropropionates were 4.5 and 1.0 mM, respectively. The enzyme acted specifically on 2-haloalkanoic acids. Activity staining of disc-gels electrophoresed witg the crude enzyme preparation showed that the dehalogenation of d- and l-2-chloropropionates, monochloroacetate, dichloroacetate, 2,2-dichloropropionate, and dl-2-chlorobutyrate is due to a single protein.Abbreviations MCA monochloroacetic acid - DCA dichloroacetic acid - TCA trichloroacetic acid - 2 MCPA 2-monochloropropionic acid - 22 DCPA 2,2-dichloropropionic acid - 3 MCPA 3-monochloropropionic acid - 2 MCBA 2-monochlorobutyric acid - 3 MCBA 3-monochlorobutyric acid - 4 MCBA 4-monochlorobutyric acid     

Advances in protein–amino acid nutrition of poultry

The ideal protein concept has allowed progress in defining requirements as well as the limiting order of amino acids in corn, soybean meal, and a corn–soybean meal mixture for growth of young chicks. Recent evidence suggests that glycine (or serine) is a key limiting amino acid in reduced protein [23% crude protein (CP) reduced to 16% CP] corn–soybean meal diets for broiler chicks. Research with sulfur amino acids has revealed that small excesses of cysteine are growth depressing in chicks fed methionine-deficient diets. Moreover, high ratios of cysteine:methionine impair utilization of the hydroxy analog of methionine, but not of methionine itself. A high level of dietary l-cysteine (2.5% or higher) is lethal for young chicks, but a similar level of dl-methionine, l-cystine or N-acetyl-l-cysteine causes no mortality. A supplemental dietary level of 3.0% l-cysteine (7× requirement) causes acute metabolic acidosis that is characterized by a striking increase in plasma sulfate and decrease in plasma bicarbonate. S-Methylmethionine, an analog of S-adenosylmethionine, has been shown to have choline-sparing activity, but it only spares methionine when diets are deficient in choline and(or) betaine. Creatine, or its precursor guanidinoacetic acid, can spare dietary arginine in chicks.     

Differential effects of amino acid analogs on growth and heterocyst differentiation in two nitrogen-fixing blue-green algae

Effects of a few amino acid analogs on growth and heterocyst differentiation have been studied in two nitrogen-fixing species ofAnabaena. All the analogs except α-methyl-dl-aspartic acid inhibited growth. Exposure ofAnabaena doliolum, todl-5-fluorotryptophan anddl-p-fluorophenylalanine caused pronounced fragmentation of filaments into single cells. At low concentrations (0.01 mM), α-methyl-dl-aspartic acid stimulated growth of the strain ofA. doliolum as well as the strain of the second (unidentified)Anabaena species. Ethionine,dl-p-fluorophenylalanine,dl-5-fluorotryptophan, and canavanine blocked heterocyst differentiation, whereas α-methyl-dl-aspartic acid, α-methyl-dl-methionine,N-o-nitrophenylsulfenyl-l-tryptophan, norleucine, andS-2-aminoethyl-l-cysteine did not show any significant effect. Treatment with 7-azatryptophan,dl-β-hydroxynorvaline,l-methionine-dl-sulfoximine,l-methionine sulfone, and β-2-thienyl-dl-alanine led to a twofold increase in heterocyst frequency. Possible modes of action of the analogs in growth inhibition and changes in heterocyst frequency are discussed.     

Synthesis of <Emphasis Type="SmallCaps">dl</Emphasis>-tryptophan by modified broad specificity amino acid racemase from <Emphasis Type="Italic">Pseudomonas putida</Emphasis> IFO 12996

Broad specificity amino acid racemase (E.C. 5.1.1.10) from Pseudomonas putida IFO 12996 (BAR) is a unique racemase because of its broad substrate specificity. BAR has been considered as a possible catalyst which directly converts inexpensive l-amino acids to dl-amino acid racemates. The gene encoding BAR was cloned to utilize BAR for the synthesis of d-amino acids, especially d-Trp which is an important intermediate of pharmaceuticals. The substrate specificity of cloned BAR covered all of the standard amino acids; however, the activity toward Trp was low. Then, we performed random mutagenesis on bar to obtain mutant BAR derivatives with high activity for Trp. Five positive mutants were isolated after the two-step screening of the randomly mutated BAR. After the determination of the amino acid substitutions in these mutants, it was suggested that the substitutions at Y396 and I384 increased the Trp specific racemization activity and the racemization activity for overall amino acids, respectively. Among the positive mutants, I384M mutant BAR showed the highest activity for Trp. l-Trp (20 mM) was successfully racemized, and the proportion of d-Trp was reached 43% using I384M mutant BAR, while wild-type BAR racemized only 6% of initial l-Trp.     

Cloning, expression, characterization and application of atcA, atcB and atcC from Pseudomonas sp. for the production of L-cysteine

An isolate of a Pseudomonas sp. uses the l-NCC (N-carbamoyl-l-cysteine) pathway to convert dl-2-amino-Δ²-thiazoline-4-carboxylic acid (dl-ATC) to l-cysteine. Genes encoding ATC racemase (AtcA), l-ATC hydrolase (AtcB) and l-NCC amidohydrolase (AtcC), involved in this pathway, were cloned from the Pseudomonas sp. and expressed in Escherichia coli BL21 via pET-28a(+). The resulting enzymes were purified, their functions identified, and their biochemical properties are described. In vitro catalysis experiments, using these enzymes, revealed that the bioconversion rate of l-cysteine from dl-ATC in the presence of AtcA was more efficient than in the absence of AtcA. This is the first report describing simultaneous cloning and expression of atcA, atcB and atcC and characterization of their enzymes for l-cysteine production from dl-ATC via the l-NCC pathway, enabling the complete l-NCC pathway to be elucidated.     

Metabolic pathways and biotechnological production of l-cysteine

l-Cysteine is an important amino acid both biologically and commercially. Although most amino acids are commercially produced by fermentation, cysteine is mainly produced by protein hydrolysis. However, synthetic or biotechnological products have been preferred in the market. Biotechnological processes for cysteine production, both enzymatic and fermentative processes, are discussed. Enzymatic process, the asymmetric hydrolysis of dl-2-amino-Δ²-thiazoline-4-carboxylic acid to l-cysteine, has been developed and industrialized. The l-cysteine biosynthetic pathways of Escherichia coli and Corynebacterium glutamicum, which are used in many amino acid production processes, are also described. These two bacteria have basically same l-cysteine biosynthetic pathways. l-Cysteine-degrading enzymes and l-cysteine-exporting proteins both in E. coli and C. glutamicum are also described. In conclusion, for the effective fermentative production of l-cysteine directly from glucose, the combination of enhancing biosynthetic activity, weakening the degradation pathway, and exploiting the export system seems to be effective.     

Biosynthesis of 5-(p-aminophenyl)-1,2,3,4-tetrahydroxypentane by methanogenic bacteria

In an attempt to establish the nature of the ammonium-assimilation products which mediate the inhibition by ammonium of nitrate uptake in cyanobacteria, the effect of different amino acids on nitrate utilization by intact Anacystis nidulans cells has been assayed. To exclude an indirect inhibition of nitrate uptake through the ammonium which the amino acids might release, the cells were pretreated with l-methionine-d,l-sulfoximine (MSX), a potent inactivator of glutamine synthetase. Under these conditions, several l-amino acids, but not the corresponding d-isomers, affected nitrate utilization to a variable extent, causing inhibitions ranging between 20 and 80% when added at 20 mM concentration.For most of the inhibitory amino acids, including l-isoleucine, l-leucine and l-valine, a correlation was found between their ability to act as amino group donors to -ketoglutarate, in reactions catalyzed by A. nidulans cell-free extracts, and their inhibitory effect on nitrate utilization. l-Glutamine, l-asparagine and glycine, being effective inhibitors of nitrate utilization, were poor substrates for the transaminating activity to -ketoglutarate, however. The possible role of the latter amino acids as mediators in the ammonium-promoted inhibition of nitrate uptake is discussed.Abbreviations MSX l-methionine-d,l-sulfoximine - MTA-5 mixed alkyltrimethylammonium bromide - Mops morpholinopropane sulfonic acid     

Chemotaxonomic studies ofAsplenium sect.Hymenasplenium (Aspleniaceae)

We previously isolated and characterized a new free amino acid withd-configuration at the α-carbon,trans-3, 4-dehydro-d-2-aminopimelic acid and its related amino acids,d-2-aminopimelic acid and 4-hydroxy-l-2-aminopimelic acid fromAsplenium unilaterale. In this paper, we report that the biosynthetic relationshps among these three amino acids were studied using¹⁴C-and³H-labeled compounds as tracers. Glutamate and aspartate were shown to be good precursors and it was suggested that 4-hydroxy-l-2-aminopimelic acid is biosynthesized first and the twod-amino acids are derived from it. Furthermore, the distribution patterns of these non-protein amino acids inAsplenium sect.Hymenasplenium were examined in detail and they were evaluated by their biosynthetic pathway. Morphological characters especially on their rhizomes were also examined and their character phylogeny was determined by outgroup comparison. Taking all the characters available into account, the phylogenetic relationship among 7 species ofAsplenium sect.Hymenasplenium in Japan and Taiwan is discussed by the transformed cladistic method.     

Enzymatic production of <Emphasis Type="SmallCaps">l</Emphasis>-amino acids from the corresponding <Emphasis Type="SmallCaps">dl</Emphasis>-5-substituted hydantoins by <Emphasis Type="Italic">Bacillus fordii</Emphasis> MH602

Bacillus fordii MH602 was newly screened from soil at 45 °C and exhibited high activities of hydantoinase and carbamoylase, efficiently yielding l-amino acids including phenylalanine, phenylglycine and tryptophan with the bioconversion yield of 60–100% from the corresponding dl-5-substituted hydantoins. Hydantoinase activity was found to be cell-associated and inducible. The optimal inducer was dl-5-methylhydantoin with concentration of 0.014 mol L⁻¹ and added to the fermentation medium in the exponential phase of growth. In the production of optically pure amino acids from dl-5-benylhydantoin, the optimal temperature and pH of this reaction were 45–50 °C and 7.5 respectively. The hydantoinase was non-stereoselective, while carmbamoylase was l-selective. The hydantoinase activity was not subject to substrate inhibition, or product inhibition by ammonia. In addition, The activities of both enzymes from crude extract of the strain were thermostable; the hydantoinase and carbamoylase retained about 90% and 60% activity after 6 h at 50 °C, respectively. Since reaction at higher temperature is advantageous for enhancement of solubility and for racemization of dl-5-substituted hydantoins, the relative paucity of l-selective hydantoinase systems, together with the high level of hydantoinase and carbamoylase activity and unusual substrate selectivity of the strain MH602, suggest that it has significant potential applications.     

Stimulation of L-asparaginase production inEscherichia coli by organic and amino acids

The effect of 18 amino acids and 7 organic acids on the production ofl-asparaginase EC-2 by a strain ofEscherichia coli in a chemically defined medium was investigated under moderate aeration. All the amino acids and some of the organic acids stimulated the enzyme production. The specific activity without stimulants was about 0.16 nkat per mg dry weight, with stimulants it lay between 1 and 6 nkat per mg dry weight but withl-leucine andl-methionine the values were 12 nkat and 17 nkat per mg, respectively. When two organic or amino acids were added simultaneously at concentrations that were suboptimal for stimulation, the stimulating effects were cumulative in most cases. When cells were grown under conditions approaching anaerobiosis, the specific activity reached, even in the absence of stimulants, values as high as 5 nkat per mg; under these conditions, a further substantial increase in specific activity was only caused byl-leucine andl-methionine. Stimulating effects ofdl-lactate and of some amino acids were also found in other strains ofEscherichia coli. The ability to grow on a medium withl-asparagine as the sole source of both nitrogen and carbon was found in two strains; growth took place even when there was no measurable activity ofl-asparaginase EC-2.     

Synthesis of a coumarin based fluorescent amino acid

Summary l-2-amino-3-(6,7-dimethoxy-4-coumaryl)-propionic acid (l-Adp), as a non-proteinogenic fluorescent amino acid has been synthesized by a highly stereoselective routine (>99.5%). This fluorescent amino acid, as fluorophorequencher pair, may be used to study peptide assays. For enantiomeric excess determination, the racemicdl-Adp (dl-2-amino-3-(6,7-dimethoxy-4-coumaryl)-propionic acid) has also been synthesized.     

<Emphasis Type="Italic">Pseudomonas stutzeri</Emphasis> as a novel biocatalyst for pyruvate production from<Emphasis Type="SmallCaps"> DL</Emphasis>-lactate

Pseudomonas stutzeri SDM oxidized dl-lactic acid (25.5 g l^-1) into pyruvic acid (22.6 g l^-1) over 24 h. Both NAD⁺-independent d-lactate dehydrogenase and NAD⁺-independent l-lactate dehydrogenase were found for the first time in the bioconversion of lactate to pyruvate based on the enzyme activity assay and proteomic analysis. Jianrong Hao and Cuiqing Ma contributed equally to this work     

Rhizocticin A,an antifungal phosphono-oligopeptide of Bacillus subtilis ATCC 6633: biological properties

Rhizocticin A, the main component of the antifungal, hydrophilic phosphono-oligopeptides of Bacillus subtilis ATCC 6633, was used for sensitivity testing and experiments into the molecular mechanism of the antibiotic action. Budding and filamentous fungi as well as the cultivated nematode Caenorhabditis elegans were found to be sensitive, whereas bacteria and the protozoon Paramecium caudatum were insensitive. Rhizoctonia solani was inhibited in agar dilution tests but not in diffusion tests. The antifungal effect of rhizocticin A was neutralized by a variety of amino acids and oligopeptides. Oligopeptide influence was mainly understood as transport antagonism, and it was concluded that the antibiotic enters the recipeint cell via the peptide transport system. l- and d-cystine were also identified as potent, general antagonists of the oligopeptide transport. The rhizocticin-antagonism of four other amino acids was taken as a clue to the site of action. Provided that rhizocticin A is split by peptidases of the target cell into inactive l-arginine and toxic l-2-amino-5-phosphono-3-cis-pentenoic acid (l-APPA), the latter may interfere with the threonine or threonine-related metabolism.Abbreviations APPA (2-amino-5-phosphono-3-cis-pentenoic acid) - B. (Bacillus) - P. (Paecilomyces) - S. (Saccharomyces) Dedicated to Professor Dr. Hans Zähner for the 60th return of his birthdayThis work was supported by the Deutsche Forschungsgemeinschaft (DFG-Lo 320¹, SFB 323²)     

Regulation of pteridine biosynthesis and aromatic amino acid hydroxylation inDrosophila melanogaster

The relationship between high dietary levels of aromatic amino acid and regulation of pteridines inDrosophila eyes was examined by measuring changes in pool levels of six pterins in the wild type and mutants and amino acid pool levels in flies that carry mutations for pteridine biosynthesis. The effect upon relative viability and developmental times was also analyzed; relative viability was affected byl-phenylalanine,l-tryptophan, andl-tyrosine in decreasing order and thed-amino acids had little or no effect. The changes in concentration of biopterin, dihydrobiopterin, pterin, sepiapterin, drosopterins, and isoxanthopterin showed a characteristic pattern of increased and/or decreased amounts in response to each of the threel-amino acids. Pterin was regularly increased, and isoxanthopterin decreased.l-Tyrosine caused a 2.1-fold increase in dihydrobiopterin, the largest increase found in this study;l-tryptophan also caused dihydrobiopterin to increase butl-phenylalanine did not. Of 18 eye-color mutants examined, 2 were found to contain high levels of phenylalanine and/or tyrosine,Pu ² andHn ^r3. These two mutants, along withpr ^c4 cn/pr ^m2b cn, were shown to be very sensitive to dietaryl-phenylalanine, indicating that having low levels of certain pteridines makes them susceptible to toxic effects of these amino acids. Therefore, high levels of aromatic amino acids can perturb the balance among pteridine pools, and low levels of some pteridines in mutants are correlated with the inability to withstand the toxic effects of phenylalanine. From the patterns of change in the pteridines we suggest that tetrahydropterin may also be a cofactor for hydroxylation of phenylalanine, along with tetrahydrobiopterin.This work was sponsored in part by a grant from the U.S.-Spain Joint Committee for Scientific and Technological Cooperation.     

Control of l-amino acid oxidase in Neurospora crassa by different regulatory circuits

l-Amino acid oxidase is synthesized in Neurospora crassa in response to three different physiological stimuli: (i) starvation in phosphate buffer, (ii) mating, and (iii) nitrogen derepression in the presence of amino acids. During starvation in phosphate buffer, or after mating, l-amino acid oxidase synthesis occurred in parallel with that of tyrosinase. Exogenous sulfate repressed the formation of the two enzymes in starved cultures, but not in mated cultures. Sulfate repression was relieved by protein synthesis inhibitors, suggesting that the effect of sulfate required the synthesis of a metabolically unstable protein repressor. With amino acids as the sole nitrogen source only l-amino acid oxidase was produced. Under these conditions enzyme synthesis was repressed by ammonium and was insensitive to sulfate. Biochemical evidence suggested that the l-amino acid oxidase formed under the three different conditions was the same protein. Therefore, the expression of l-amino acid oxidase appeared to be under the control of least two regulatory circuits. One, also controlling tyrosinase, seems to respond to developmental signals related to sexual morphogenesis. The other, controlling other enzymes of the nitrogen catabolic system, is used by the organism to obtain nitrogen from alternative sources such as proteins and amino acids.     

Novel l-specific cleavage of the urethane bond of t -butoxycarbonylamino acids by whole cells of Corynebacterium aquaticum

Microorganisms capable of cleaving the urethane bond of t-butoxycarbonyl (Boc) amino acids in a whole-cell reaction were screened among stock cultures, and Corynebacterium aquaticum IFO12154 was the most promising. The conversion of Boc-Ala to Ala was stimulated by CoSO₄ in the medium and reaction mixture. The optimum whole-cell concentration was 25 mg lyophilized cells/ml. Boc-l-Met was the best substrate for this reaction, and other Boc-L-amino acids, as well as benzyloxycarbonyl-l-amino acids with hydrophobic residues, were also good substrates. Boc-d- and Z-d-amino acids were inert. When the reactions had proceeded for 24 h with each substrate at 10 mM, the molar conversion rates from Boc-l-, dl- and d-Met were 100%, 50%, and 0% respectively. From 150 mM Boc-l-Met, 143 mM l-Met was formed at a molar yield of 95.3%. Received: 3 September 1996 / Received last revision: 7 April 1997 / Accepted: 19 April 1997     

Glutamate uptake system in the presynaptic vesicle: Glutamic acid analogs as inhibitors and alternate substrates

A variety of naturally occurring amino acids, their isomers, and synthetic analogs were tested for their ability to inhibit uptake of [³H]glutamate into presynaptic vesicles from bovine cerebral cortex. Strongest inhibition (K_i<1mM) was observed fortrans-1-aminocyclopentane-1,3-dicarboxylic acid (t-ACPD) anderythro-4-methyl-L-glutamic acid (MGlu), while 4-methylene-L-glutamic acid (MeGlu) was only moderately inhibitory (Ki=3mM), indicating that the synaptic vesicle glutamate translocator has higher affinity forrans-ACPD and MGlu than for glutamate. A few other amino acids, e.g., 4-hydroxyglutamic acid, S-carboxyethyl cysteine, and 5-fluorotryptophan, were slightly inhibitory; alll- anddl-isomers of protein amino acids and longer chain acidic amino acids were without measurable inhibition. Potassium tetrathionate and S-sulfocysteine exhibited strong to moderate noncompetitive or irreversible inhibition. Inhibition by t-ACPD, MGlu, or MeGlu was competitive with glutamic acid. Each of these competitive inhibitors was also taken up by the vesicle preparation in an ATP-dependent manner, as indicated by their being recovered unchanged from filtered vesicles. Similar results were obtained with reconstituted vesicles, while glutamate uptake by partially purified rat synaptosomes was inhibited only by MGlu. These results indicate that the glutamate translocator of presynaptic vesicles has stringent structural requirements distinct from those of the plasma membrane translocator and the metabotropic type of postsynaptic glutamate receptor. They further suggest possible structural requirements of pharmacologically significant compounds that can substitute for glutamic acid in the presynaptic side of glutamatergic synapses, thus serving to moderate or control glutamate excitation and associated excitotoxic effects in these neurons.Special issue dedicated to Dr. Paul Greengard     

Inhibitory action of serine on growth of bacteria of the genusBacillus on mineral synthetic media

l-Serine added to minimal synthetic media stops the growth ofBacillus subtilis, B. megaterium, B. mycoides andB. pantothenticus. All tested subspecies ofBacillus thuringiensis appear resistant to this amino acid. Serine acts bacteriostatically onB. subtilis strain B 003 and this effect depends on the concentrations of both the amino acid and the plated bacterium. Growth of serine-sensitiveBacillus strains can be restored by simultaneous addition of some other amino acids (e.g. l-threonine,l-arginine,l-aspartate orl-alanine) to the minimal media. This alleviating effect depends on the kind of amino acid. Some amino acids (e.g. l-threonine,l-tyrosine orl-tryptophan) are only effective when the serine concentration is not higher than 125 μmol/L, others (l-arginine,l-proline,l-alanine,l-aspartate orl-glutamate) are effective even when the serine concentration is as high as 500 μmol/L.