Identification and optimization of tyrosine hydroxylase activity in Mucuna pruriens DC. var. utilis

Tyrosine hydroxylase, an iron containing tetrahydrobiopterin dependent monooxygenase (tyrosine 3-monooxygenase; EC 1.14.16.2), catalyzes the rate-limiting step in which l-dopa is formed from the substrate l-tyrosine. l-Dopa concentration and activity of l-tyrosine hydroxylase enzyme were measured in roots, stem, leaves, pods, and immature seeds of Mucuna pruriens. Immature seeds contained maximum l-dopa content and mature leaves possessed maximum catalytic activity of tyrosine hydroxylase. Tyrosine hydroxylase from leaf homogenate was characterized as a 55 kDa protein by SDS-PAGE and Western-blot analysis with monoclonal mouse IgG2a tyrosine hydroxylase antibody. The conditions for maximum tyrosine hydroxylase activity from the leaf extract were optimized with respect to temperature, pH, cofactor 6-MPH₄, and divalent metal ions. The tyrosine hydroxylase from leaf extract possessed a K _m value of 808.63 μM for l-tyrosine at 37°C and pH 6.0. The activity of the enzyme was slightly inhibited at 2,000 μM l-tyrosine. Higher concentrations of the cofactor 6-MPH₄, however, completely inhibited the synthesis of l-dopa. Tyrosine hydroxylase converted specific monophenols such as l-tyrosine (808.63 μM) and tyramine (K _m 1.1 mM) to diphenols l-dopa and dopamine, respectively. Fe(II) activated the enzyme while higher concentration of other divalent metals reduced its activity. For the first time, tyrosine hydroxylase from M. pruriens is being reported in this study.     

The effect of polyamines on tyrosine hydroxylase and L-Aromatic amino acid decarboxylase

The polyamines stimulated tyrosine hydroxylase in whole homogenates of bovine caudate nuclei approximately 2 fold. TheV _max forl-tyrosine increased by 2.3 fold while theK _m s forl-tyrosine and for the cofactor (DMPH₄) were unchanged.l-Aromatic amino acid decarboxylase from whole rat brain homogenate was stimulated by about 40% in the presence of polyamines. These findings suggest that increased polyamine levels associated with increased cellular synthetic activity can modify the synthesis of neurotransmitters.     

Role of the second coordination sphere residue tyrosine 179 in substrate affinity and catalytic activity of phenylalanine hydroxylase

Phenylalanine hydroxylase converts phenylalanine to tyrosine utilizing molecular oxygen and tetrahydropterin as a cofactor, and belongs to the aromatic amino acid hydroxylases family. The catalytic domains of these enzymes are structurally similar. According to recent crystallographic studies, residue Tyr179 in Chromobacterium violaceum phenylalanine hydroxylase is located in the active site and its hydroxyl oxygen is 5.1 Å from the iron, where it has been suggested to play a role in positioning the pterin cofactor. To determine the catalytic role of this residue, the point mutants Y179F and Y179A of phenylalanine hydroxylase were prepared and characterized. Both mutants displayed comparable stability and metal binding to the native enzyme, as determined by their melting temperatures in the presence and absence of iron. The catalytic activity (k_cat) of the Y179F and Y179A proteins was lower than wild-type phenylalanine hydroxylase by an order of magnitude, suggesting that the hydroxyl group of Tyr179 plays a role in the rate-determining step in catalysis. The K_M values for different tetrahydropterin cofactors and phenylalanine were decreased by a factor of 3–4 in the Y179F mutant. However, the K_M values for different pterin cofactors were slightly higher in the Y179A mutant than those measured for the wild-type enzyme, and, more significantly, the K_M value for phenylalanine was increased by 10-fold in the Y179A mutant. By the criterion of k_cat/K_Phe, the Y179F and Y179A mutants display 10% and 1%, respectively, of the activity of wild-type phenylalanine hydroxylase. These results are consistent with Tyr179 having a pronounced role in binding phenylalanine but a secondary effect in the formation of the hydroxylating species. In conjunction with recent crystallographic analyses of a ternary complex of phenylalanine hydroxylase, the reported findings establish that Tyr179 is essential in maintaining the catalytic integrity and phenylalanine binding of the enzyme via indirect interactions with the substrate, phenylalanine. A model that accounts for the role of Tyr179 in binding phenylalanine is proposed.Electronic Supplementary Material Supplementary material is available in the online version of this article at Abbreviations AAAHs aromatic amino acid hydroxylases - BH₂ 7,8-dihydro-l-biopterin - BH₄ (6R)-5,6,7,8-tetrahydro-l-biopterin - CD circular dichroism - cPAH Chromobacterium violaceum phenylalanine hydroxylase - DMPH₄ 6,7-dimethyl-5,6,7,8-tetrahydropterin - DTT dithiothreitol - EDTA ethylenediaminetetraacetic acid - ES-MS electrospray ionization mass spectrometry - hPAH human phenylalanine hydroxylase - ICP-AE inductively coupled plasma atomic emission - 6-MPH₄ 6-methyl-5,6,7,8-tetrahydropterin - PAH phenylalanine hydroxylase - PH₄ tetrahydropterin - PKU phenylketonuria - RDS rate-determining step - TH tyrosine hydroxylase - THA 3-(2-thienyl)-l-alanine - TPH tryptophan hydroxylase - wt wild-type     

Die Hydroxylierung von Phenylalanin durch Hydrogenomonas eutropha H 16

Zusammenfassung Der Tyrosinbedarf von tyrosinbedürftigen Mutanten von Hydrogenomonas eutropha (Alcaligenes eutrophus) Stamm H 16 (ATCC 17699) läßt sich außer durch l-Tyrosin auch durch l-Phenylalanin befriedigen.Suspensionen intakter Wildtypzellen setzen Phenylalanin zu Tyrosin um und scheiden es in die Nährlösung aus. Da Tyrosin mit etwa der gleichen Rate umgesetzt wird, kommt es zu einer nur vorübergehenden Akkumulation.Durch zellfreie Extrakte wird Phenylalanin in Gegenwart von NAD(P)H₂ und Sauerstoff unter Bildung von Tyrosin hydroxyliert. Die Anfangsrate beträgt 20 E/g Protein. Tyrosin wird mit etwa der gleichen Rate abgebaut. Im Rohextrakt kommt es nach einer anfänglichen Akkumulation von Tyrosin (2–3 mM) zur Einstellung einer steady state-Konzentration, die unter 1 mM liegt. Die Phenylalanin-Hydroxylase benötigt außer den genannten Komponenten noch wenigstens einen dialysierbaren, durch Chromatographie an Sephadex-G 25 abtrennbaren Cofaktor.Phenylalanin-Hydroxylase wird in Stamm H 16 durch l-Phenylalanin induziert, nicht durch l-Tyrosin, Phenylpyruvat, Hydroxyphenylpyruvat oder l-Tryptophan. Phenylalanin wirkt nur induzierend, wenn es der Nährlösung in Substratkonzentrationen (0,2%) beigefügt wird, nicht hingegen in Supplinkonzentrationen (20 g/ml).Phenylalanin-Hydroxylase ließ sich nur in den Stämmen nachweisen, die auf Phenylalanin als C- und Energiequelle wachsen (Hydrogenomonas eutropha H 16, Pseudomonas facilis, Stamm 12 X), nicht in einigen anderen geprüften Stämmen.

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Hydroxylation of phenylalanine by Hydrogenomonas eutropha H 16

Summary The tyrosine requirement of tyrosine-dependent mutants of Hydrogenomonas eutropha (Alcaligenes eutrophus) strain H 16 (ATCC 17699) can be satisfied by l-tyrosine as well as by l-phenylalanine.Tyrosine is formed from l-phenylalanine by suspensions of intact wild type cells and is excreted into the medium. It is only transiently accumulated in the medium since it is further metabolized by the cells at a rate comparable to that of phenylalanine.Phenylalanine is converted to tyrosine by cell-free extracts in the presence of NAD(P)H₂ and oxygen; the initial rate of tyrosine formation is 20 units per g protein. Tyrosine is degraded at an approximately equal rate. After the addition of l-phenylalanine to the crude extract tyrosine is formed and accumulated up to a 2–3 mM concentration and reaches a steady state concentration of less than 1 mM tyrosine. In addition to the components mentioned, the phenylalanine hydroxylase reaction requires at least one dialysable cofactor which has been separated by chromatography on sephadex-G 25.In strain H 16 phenylalanine hydroxylase is induced by l-phenylalanine; it is not induced by l-tyrosine, phenylpyruvate, hydroxyphenylpyruvate or l-tryptophan. Induction occurs only when phenylalanine is added to the growth medium in substrate concentrations (e.g. 0.2%); growth factor concentrations (20 g/ml) are not effective.Phenylalanine hydroxylase has been found only in those strains which are able to utilize phenylalanine as a carbon and energy source for growth: H. eutropha H 16, Pseudomonas facilis, strain 12X.

     

Regulation of differentiation of the dimorphic fungusPaecilomyces viridis by nitrogen sources,antibiotics and metabolic inhibitors

The effect of nitrogen and carbon sources, vitamins, antibiotics and metabolic inhibitors on growth and differentiation ofPaecilomyces viridis was investigated. Sodium nitrate,l-asparagine,l-proline and peptone were found to be suitable nitrogen sources for mycelial growth (M) in a synthetic medium with glucose.Paecilomyces viridis could also grow slowly in a synthetic medium containing benzylpenicillin or bacitracin as the only nitrogen sources and very slowly even in a medium with polymyxin as the nitrogen source. Ammonium salts, area,l-arginine,d, l-aspartic acid andl,-serine were found to support intensive sporulation. Partially yeast-like growth (Y) was facilitated by NaNO₂, (NH₄)₂SO₄, NH₄NO₃, urea,d, l-alanine,l-arginine,d, l-aspartic acid,l-cysteine,l-glutamic acid andl-serine. Partially yeastlike growth could be observed in a medium with peptone and at an initial pH of 2. The following compounds appear as suitable carbon sources for mycelial growth:d-glucose,d-galactose,d-mannose, maltose, sucrose, chitin andd-mannitol. No changes in morphology could be detected on any of the 25 used carbon sources in a synthetic medium with NaNO₃. Yeast-like growth was induced by the antibiotics azalomycin F, cyanein (brefeldin A), griseofulvin and monorden (radicicol). After removal of the antibiotics, mycelial growth was restored. Sporulation was stimulated by chloramphenicol, 2-deoxy-d-glucose, furancarboxylic acid and stipitatic acid. Deformation of phialides was observed after treatment with actinomycin D, amphotericin B, boromycin, citrinin, cycloheximide, cytochalasin D, fungicidin and scopathricin. Microcyclic conidiation or growth of phialides directly from conidia were induced by cycloheximide, desertomycin, ethidium bromide and 5-fluorouracil.     

Electrophysiological investigation of the amino acid carrier selectivity in epithelial cells fromXenopus embryo

Summary The electrical responses induced by external applications of neutral amino acids were used to determine whether different carriers are expressed in the membrane of embryonic epithelial cells ofXenopus laevis. Competition experiments were performed under voltage-clamp conditions at constant membrane potential.Gly,l-Ala,l-Pro,l-Ser,l-Asn andl-Gln generate electrical responses with similar apparent kinetic constants and compete for the same carrier. They are [Na] _o and voltage-dependent, insensitive to variations in [Cl] _o and [HCO₃] _o , inhibited by pH _o changes, by amiloride and, for a large fraction of the current, by MeAIB. The increase in [K] _o at constant and negative membrane potential reduces the response, whereas lowering [K] _o augments it. l-Leu,l-Phe andl-Pro appear to compete for another carrier. They generate electrogenic responses insensitive to amiloride and MeAIB, as well as to alterations of membrane potential, [Na] _o and [K] _o . Lowering [Cl] _o decreases their size, whereas increasing [HCO₃] _o at neutral pH _o increases it.It is concluded that at least two and possibly three transport systems (A, ASC and L) are expressed in the membrane of the embryonic cells studied. An unexpected electrogenic character of the L system is revealed by the present study and seems to be indirectly linked to the transport function. l-Pro seems to be transported by system A or ASC in the presence of Na and by system L in the absence of Na. MeAIB induces an inward current.     

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.     

Regulation of aspartokinase activity in non-fermentative,marine eubacteria

Summary Cell-free extracts of gram-negative, non-fermentative, marine eubacteria were assayed for aspartokinase activity. The organisms tested included polarly flagellated species and groups which had GC contents in their DNAs of 46 to 64 moles % (Alteromonas, Pseudomonas) as well as species which had peritrichous flagellation and moles % GC contents of 53 to 68 (Alcaligenes). The results of these studies suggested that in all the strains tested, aspartokinase activity was catalyzed by a single enzyme. On the basis of the effect ofl-threonine,l-lysine,l-methionine, andl-isoleucine on activity, five different types of aspartokinases (designated I through V) were delineated. In aspartokinase types I through IV,l-threonine andl-lysine inhibited activity by means of a concerted feedback inhibition; in type V, activity was inhibited byl-threonine but unaffected byl-lysine. In types I, III, and IV,l-threonine andl-lysine alone were inhibitory, while in type II these effectors had virtually no effect on activity when tested singly. Three distinct responses were observed in the presence of two other end products of the aspartate pathway,l-methionine andl-isoleucine. In types I and II, these two amino acids usually stimulated activity and overcame the inhibition byl-threonine andl-lysine; in types IV and V,l-methionine andl-isoleucine had no effect; and in type III these amino acids inhibited activity. The results of this study indicate that the aspartokinases of a number of species and groups of marine bacteria have similarities and differences which should be of use in making future taxonomic groupings.     

Involvement of the glutamine synthetase/glutamate synthase pathway in ammonia assimilation by the wood-rotting fungusPleurotus ostreatus

The mycelium of the wood-rotting fungus,P. ostreatus, contains NAD-dependent glutamate synthase inhibited by azaserine.l-Glutamine andl-glutamate are the most important free amino acids in the mycelium. Feeding of the mycelium with nitrogenous substrates showed thatl-glutamate,l-aspartate andl-alanine are interconnected by way of transaminases. After the inhibition of glutamine synthetase by methionine-S-sulfoximine the synthesis ofl-glutamate was inhibited and the level of all free amino acids decreased. The¹⁵N-NMR spectra of mycelia after the addition of¹⁵NH₄Cl confirmed that the GS/GOGAT is the only pathway of ammonia assimilation inP. ostreatus and NAD-glutamate dehydrogenase should be the deaminating enzyme.     

Characterization of NADP<Superscript>+</Superscript>-specific <Emphasis Type="SmallCaps">l</Emphasis>-rhamnose dehydrogenase from the thermoacidophilic Archaeon <Emphasis Type="Italic">Thermoplasma acidophilum</Emphasis>

Thermoplasma acidophilum utilizes l-rhamnose as a sole carbon source. To determine the metabolic pathway of l-rhamnose in Archaea, we identified and characterized l-rhamnose dehydrogenase (RhaD) in T. acidophilum. Ta0747P gene, which encodes the putative T. acidophilum RhaD (Ta_RhaD) enzyme belonging to the short-chain dehydrogenase/reductase family, was expressed in E. coli as an active enzyme catalyzing the oxidation of l-rhamnose to l-rhamnono-1,4-lactone. Analysis of catalytic properties revealed that Ta_RhaD oxidized l-rhamnose, l-lyxose, and l-mannose using only NADP⁺ as a cofactor, which is different from NAD⁺/NADP⁺-specific bacterial RhaDs and NAD⁺-specific eukaryal RhaDs. Ta_RhaD showed the highest activity toward l-rhamnose at 60 °C and pH 7. The K _m and k _cat values were 0.46 mM, 1,341.3 min⁻¹ for l-rhamnose and 0.1 mM, 1,027.2 min⁻¹ for NADP⁺, respectively. Phylogenetic analysis indicated that branched lineages of archaeal RhaD are quite distinct from those of Bacteria and Eukarya. This is the first report on the identification and characterization of NADP⁺-specific RhaD.     

Transport of glutamine inXenopus laevis oocytes: Relationship with transport of other amino acids

Summary We have investigated transport of the amino acid glutamine across the surface membranes of prophase-arrestedXenopus laevis oocytes. Glutamine accumulation was linear with time for 30 min; it was stereospecific with aK _m of 0.12±0.02mm andV _max of 0.92±0.17 pmol/oocyte · min forl-glutamine. Transport ofl-glutamine was Na⁺-dependent, the cation not being replaceable with Li⁺, K⁺, choline, tris(hydroxymethyl)-aminomethane (Tris), tetramethylammonium (TMA) or N-methyld-glucamine NMDG); external Cl^– appeared to be necessary for full activation of Na⁺-dependent glutamine transport. Two external Na⁺ may be required for the transport of one glutamine molecule.l-glutamine transport (at 50 m glutamine) was inhibited by the presence of other amino acids:l-alanine,d-alanine,l-leucine,l-asparagine andl-arginine (about 60% inhibition at 1mm);l-histidine,l-valine and glycine (25 to 40% inhibition at 1mm);l-serine,l-lysine,l-phenylalanine andl-glutamate (45 to 55% inhibition at 10mm). N-methylaminoisobutyric acid (meAIB) had no effect at 10mm, but 2-aminobicyclo[2,2,1]heptane-2-carboxylic acid (BCH) inhibited Na⁺/glutamine transport by about 50% at 10mm.l-glutamine was a competitive inhibitor of the Na⁺-dependent transport ofl-alanine,d-alanine andl-arginine; this evidence is consistent with the existence of a single system transporting all four amino acids. Glutamine uptake in oocytes appears to be catalyzed by a transport system distinct from the cotransport Systems A, ASC, N and Gly, although it resembles System B^0,+.     

Amino acid metabolism in the thermophilic phototroph,Chloroflexus aurantiacus: properties and metabolic role of two l-threonine (l-serine) dehydratases

Two l-threonine (l-serine) dehydratases (EC 4.2.1.16) of the thermophilic phototrophic bacterium Chloroflexus aurantiacus Ok-70-fl were purified to electrophoretic homogeneity by procedures involving anion exchange and hydrophobic interaction chromatography. Only one of the two enzymes was sensitive to inhibition by l-isoleucine (K _i=2 M) and activation by l-valine. The isoleucine-insensitive dehydratase was active with l-threonine (K _m=20 mM) as well as with l-serine (K _m=10 mM) whereas the other enzyme, which displayed much higher affinity to l-threonine (K _m=1.3 mM), was inactivated when acting on l-serine. Both dehydratases contained pyridoxal-5-phosphate as cofactor. When assayed by gel filtration techniques at 20 to 25° C, the molecular weights of both enzymes were found to be 106,000±6,000. In sodium dodecylsulfate-polyacrylamide gel electrophoresis, the two dehydratases yielded only one type of subunit with a molecular weight of 55,000±3,000. The isoleucine-insensitive enzyme was subject to a glucose-mediated catabolite repression.Abbreviations A absorbance - ile isoleucine - PLP pyridoxal-5-phosphate - SDS sodium dodecyl sulfate - TDH threonine dehydratase - U unit     

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.     

Glycerol andl-α-Glycerol-3-phosphate uptake bypseudomonas aeruginosa

Uptake activities for both glycerol andl-α-glycerol-3-phosphate inPseudomonas aeruginosa strain PAO were induced during growth in the presence of either glycerol ordl-α-glycerol-3-phosphate. Succinate, malate, and glucose exerted catabolite repression control over induction of both uptake activities. Glycerol uptake exhibited saturation kinetics with an apparentK _m of 13 μM and aV _max of 73 nmol/min/mg cell protein. The uptake ofl-α-glycerol-3-phosphate was inhibited by the presence of glycerol, but uptake of glycerol was unaffected by exogenousl-α-glycerol-3-phosphate. Uptake of both substrates by starved, induced cells was stimulated by exogenously providedd-glucose, 2-deoxy-d-glucose,d-gluconate, orl-malate. In a mutant deficient in gluconate uptake and glucose dehydrogenase (EC 1.1.1.47) activities,d-glucose, 2-deoxy-d-glucose, andd-gluconate exerted little or no effect on the uptake of either substrate, butl-malate markedly stimulated the processes. The uptake of both glycerol andl-α-glycerol-3-phosphate, by either starved or unstarved cells, was inhibited by a number of metabolic poisons, including arsenate, azide, cyanide, 2,4-dinitrophenol, and iodoacetate.     

Inhibition by excitatory sulphur amino acids of the high-affinityl-glutamate transporter in synaptosomes and in primary cultures of cortical astrocytes and cerebellar neurons

A detailed kinetic study of the inhibitory effects ofl- andd-enantiomers of cysteate, cysteine sulphinate, homocysteine sulphinate, homocysteate, and S-sulpho-cysteine on the neuronal, astroglial and synaptosomal high-affinity glutamate transport system was undertaken.d-[³H] Aspartate was used as the transport substrate. Kinetic characterisation of uptake in the absence of sulphur compounds confirmed the high-affinity nature of the transport systems, the Michaelis constant (K _m) ford-aspartate uptake being 6 M, 21 M and 84 M, respectively, in rat brain cortical synaptosomes and primary cultures of mouse cerebellar granule cells and cortical astrocytes. In those cases where significant effects could be demonstrated, the nature of the inhibition was competitive irrespective of the neuronal versus glial systems. The rank order of inhibition was essentially similar in synaptosomes, neurons and astrocytes. Potent inhibition (K _iK _m) of transport in each system was exhibited byl-cysteate, andl- andd-cysteine sulphinate whereas substantially weaker inhibitory effects (K _i>10–1000 times the appropriateK _m value) were exhibited by the remaining sulphur amino acids. In general, inhibition: (i) was markedly stereospecific in favor of thel-enantiomers (except for cysteine sulphinate) and (ii) was found to decrease with increasing chain length. Computer-assisted molecular modelling studies, in which volume contour maps of the sulphur compounds were superimposed on those ofd-aspartate andl-glutamate, demonstrated an order of inhibitory potency which was, qualitatively, in agreement with that obtained quantitatively by in vitro kinetic studies.Special issue dedicated to Dr. Elling Kvamme     

Neurochemical,pharmacological, and developmental studies on cerebellar receptors for dicarboxylic amino acids

Specific binding ofl-[³H]glutamate ([³H]Glu) andl-[³H]asparate ([³H]Asp) to cerebellar membranes represented a time-, temperature- pH- and protein-dependent interaction which was both saturable and reversible. Binding sites for both radioligands appeared maximally enriched in synaptosomal fractions isolated by gradient centrifugation. Kinetically derived dissociation constant (K _off/K _on=K _d) for [³H]Glu binding to this fraction indicated high-affinity (443 nM). Competition experiments employing analogs of excitatory amino acids, including new antagonists, helped identify binding sites for [³H]Glu and [³H]Asp as receptors with differential pharmacological, specificities. Membrane freezing reduced numbers of both receptor types, but binding activity could be recovered partially by incubation at 37°C. Glu receptors exhibited a pronounced deleterious sensitivity to thiol modifying reagents andl-Glu (50–1000 M) provided protection, against these compounds during co-incubation with cerebellar membranes. It is suggested that cold storage may induce partially reversible receptor inactivation by promoting sulfhydryl group/bond modification. Rat cerebellar glutamatergic function (endogenous Glu content, Glu uptake and receptor sites) exhibited an apparent ontogenetic peak between days 8–12 postpartum with a plateauing profile from day 30 to adulthood. The accelerated development (days 8–12) coincides with the first demonstrable Glu release and kainic acid neurotoxicity, as described previously.     

Kinetic and regulatory properties of pyruvate kinase isozymes from flight muscle and fat body of the cockroach,Periplaneta americana

Summary Pyruvate kinases from flight muscle and fat body of the cockroach,Periplaneta americana, were purified to homogeneity. The two tissues contained different forms of the enzyme which were separable by starch gel electrophoresis and isoelectric focusing (pI=5.75 for flight muscle and 6.15 for fat body). Both enzymes had molecular weights of 235,000±20,000.Flight muscle pyruvate kinase displayed Michaelis-Menten kinetics with respect to both ADP and P-enolpyruvate withK _m values of 0.27 and 0.04 mM, respectively.K _m for Mg²⁺ was 0.60 mM andK _a for K⁺ was 15 mM. The enzyme was weakly inhibitied by four compounds, ATP, arginine-P,l-alanine and citrate with apparentK _i values of 3.5, 15, 20 and 24 mM, respectively. Competitive inhibition by 3 mM ATP or 10 mM arginine-P raised theK _m for P-enolpyruvate to 0.067 or 0.057 mM. Fructose-1,6-P₂ did not activate the enzyme but reversed inhibitions by ATP and arginine-P.Fat body pyruvate kinase showed sigmoidal kinetics with respect to P-enolpyruvate with S_0.5=0.32 mM andn _H=1.43.K _m values for ADP and Mg²⁺ were 0.30 and 0.80 mM, respectively with aK _a for K⁺ of 10 mM. ATP andl-alanine were inhibitors of the enzyme; 2 mM ATP raised S_0.5 for P-enolpyruvate to 0.48 mM while 3 mMl-alanine increased S_0.5 to 0.84 mM. Neither citrate nor arginine-P inhibited the enzyme but citrate affected the enzyme by reversingl-alanine inhibition. Fat body pyruvate kinase was strongly activated by fructose-1,6-P₂ with an apparentK _a of 1.5 M. Fructose-1,6-P₂ at 0.1 mM reduced S_0.5 for P-enolpyruvate to 0.05 mM andn _H to 1.0.Flight muscle and fat body pyruvate kinases from the cockroach show properties analogous to those of the muscle and liver forms of mammalian pyruvate kinase. Fat body pyruvate kinase is suited for on-off function in a tissue with a gluconeogenic capacity. Strong allosteric control with a feed-forward activation by fructose-1,6-P₂ is key to coordinating enzyme function with glycolytic rate. The function of flight muscle pyruvate kinase in energy production during flight is aided by a lowK _m for P-enolpyruvate, weak inhibitor effects by high energy phosphates and deinhibition of these effects by fructose-1,6-P₂.     

N5-(l-1-Carboxyethyl)-l-ornithine: NADP+ oxidoreductase inStreptococcus lactis: Distribution,constitutivity, and regulation

N⁵-(l-1-Carboxyethyl)-l-ornithine: NADP⁺ oxidoreductase [N⁵-(CE)ornithine synthase] catalyzes the NADPH-dependent reductive condensation between pyruvic acid and the terminal amino group ofl-ornithine andl-lysine to yield N⁵-(l-1-carboxyethyl)-l-ornithine and N⁶-(l-1-carboxyethyl)-l-lysine respectively. Polyclonal antibodies against N⁵-(CE)ornithine synthase purified fromStreptococcus lactis K1 have been used for the immunochemical (Western blot) detection and sizing of this enzyme in various lactic acid bacteria. The enzyme was confined to about one-half of the strains ofS. lactis examined. N⁵-(CE)ornithine synthase is constitutive, and in strains K1, 6F3, and (plasmid-free)H₁-4125 the native enzyme is a tetramer composed of identical subunits of M_r=38,000. However, in other strains, including 133 (ATCC 11454), C₁₀, and ML₈, the molecular weight of the native enzyme is approximately 130,000 and the corresponding subunit M_r=35,000. Analyses of the amino acid pool components maintained byS. lactis K1 during growth in medium containing [¹⁴C] labeled and unlabeled arginine have revealed that (i) exogenous arginine is the precursor of intracellular ornithine, citrulline, and N⁵-(CE)ornithine, and (ii) the rates of turnover of ornithine and citrulline were considerably faster than that of N⁵-(CE)ornithine. These data account for the biosynthesis and accumulation of N⁵-(CE)ornithine byS. lactis.     

Adsorption studies for the separation ofl-tryptophan froml-serine and indole in a bioconversion medium

l-tryptophan was produced froml-serine and indole by immobilized Escherichia coli cells in organic-aqueous systems. Selective adsorption was the method chosen to enable both product separation andl-serine reutilization. Amongst various adsorbents tested activated carbons and neutral polymeric resins (XAD-4 and XAD-7) showed good performance. The neutral resins could selectively concentrate thel-tryptophan from dilute aqueous solutions and adsorbed only 5% of the unconvertedl-serine. High separation factors (l-tryptophan/l-serine and indole/l-tryptophan) were obtained with these adsorbents. Despite a lower capacity, the XAD-7 resin had the advantage of desorbingl-tryptophan with basic or acidic solutions, while organic solvents were required to desorb, at the same concentration levels, this compound from XAD-4.In a packed bed column filled with XAD-4 resin or activated carbon, totall-tryptophan adsorption and recovery were achieved at linear velocities up to 5.0 cm/min and 3.2 cm/min respectively. Successive sorbent reutilization, following continuous sorption and elution steps, was carried out in packed bed columns with the neutral resins and activated carbon.Thel-form of tryptophan, after crystallization, was identified by HPTLC.List of Symbols HPLC High Performance Liquid Chromatography - HPTLC High Performance Thin Layer Chromatography - Trp tryptophan - Ser Serine - A amount of sorbent(g) - c equilibrium solute concentration in the aqueous phase (g/dm³) - c _i initial (before adding the sorbent) liquid phase concentration (g/dm³) - C _T tryptophan concentration in the inlet solution (g/dm³) - C _To tryptophan concentration in the outlet solution (g/dm³) - E _z axial dispersion coefficient (m²/s) - k experimental constant (Eq. 1, 2 and 3) - K ₁ rate constant of adsorption (min^–1) - L column length(m) - n experimental constant (eq. 1, 2 and 3) - q equilibrium solid phase concentration (g solute/g sorbent) - q _max maximum capacity of sorbent (g solute/g sorbent) - t time(s) - v liquid velocity (m/s) - V volume of liquid phase(dm³) - V _e eluted volume(dm³) - V _r volume needed to saturate the column (dm³)     

The presence of two serine racemases in Streptomyces garyphalus,a d-cycloserine producer

Two serine racemases (I and II) were isolated from Streptomyces garyphalus. Serine racemase I (molecular weight 93,000) was purified to a single band in an analytical electrofocusing system. Serine racemase II (molecular weight 73,000) was partially purified. Both enzymes used pyridoxal-5-phosphate as cofactor. Besides serine the enzymes utilized alanine as substrate but no other amino acid tested. The K _m values of l-alanine and l-serine for enzyme I were 111 mM and 35 mM respectively. Enzyme I was not inhibited by d-cycloserine but by hydroxylamine. Both substances inhibited enzyme II. The serine racemases may be involved in the biosynthesis of d-cycloserine in S. garyphalus.