Characterization of the peptide-N4-(N-acetylglucosaminyl) asparagine amidase (PNGase Se) fromSilene alba cells

The peptide-N ⁴-(N-acetylglucosaminyl) asparagine amidase (PNGase Se) earlier described [Lhernould S., Karamanos Y., Bourgerie S., Strecker G., Julien R., Morvan H. (1992)Glycoconjugate J 9:191–97] was partially purified from culturedSilene alba cells using affinity chromatography. The enzyme is active between pH 3.0 and 6.5, and is stable in the presence of moderate concentrations of several other protein unfolding chemicals, but is readily inactivated by SDS. Although the enzyme cleaves the carbohydrate from a variety of animal and plant glycopeptides, it does not hydrolyse the carbohydrate from most of the corresponding unfolded glycoproteins in otherwise comparable conditions. The substrate specificity of this plant PNGase supports the hypothesis that this enzyme could be at the origin of the production of unconjugated N-glycans in a suspension medium of culturedSilene alba cells.Abbreviations GlcNAc N-acetylglucosamine - PNGase peptide-N ⁴-(N-acetylglucosaminyl) asparagine amidase - BSA bovine serum albumin - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - TLC thin layer chromatography - HPAEC-PAD High pH anion exchange chromatography-pulsed amperometric detection     

Functional characterization of the S41Y (C2755A) polymorphism of tryptophan hydroxylase 2

Human TPH2 (hTPH2) catalyzes the rate‐limiting step in CNS serotonin biosynthesis. We characterized a single‐nucleotide polymorphism (C2755A) in the hTPH2 gene that substitutes tyrosine for serine at position 41 in the regulatory domain of the enzyme. This polymorphism is associated with bipolar disorder and peripartum depression in a Chinese population. Recombinant h TPH2 human proteins were expressed in bacteria and also stably expressed in PC12 cells. Following bacterial expression and purification, the tyrosine for serine substitution at position 41 (S41Y) polymorphic enzyme displayed increased V_max with unchanged K_m values. By contrast, enzyme stability was decreased in vitro from 32 min to 4 min (37°C) for the S41Y enzyme (as compared to the wild‐type enzyme). The S41Y polymorphism decreased cyclic AMP‐dependent protein kinase A‐mediated phosphorylation ~ 50% relative to wild‐type hTPH2, suggesting that the S41Y mutation may disrupt the post‐translational regulation of this enzyme. Transfected PC12 cells expressed hTPH2 mRNA, active protein, and synthesized and released serotonin. Paradoxically, while S41Y‐transfected PC12 cells expressed higher levels of hTPH2 than wild type, they synthesized less serotonin. These findings suggest a modified regulation of the S41Y gene variant leading to altered regulation and reduced neurotransmitter synthesis that may contribute to association of the polymorphism with bipolar disorder and depression.

     

Threonine is present instead of cysteine at the active site of urease from Staphylococcus xylosus

DNA sequence analysis of the stuctural urease genes from Staphylococcus xylosus revealed that three enzyme subunits are encoded in the order of 11000, 15400 and 61000 (mol. mass), which correspond to the single polypeptide chain of jack bean urease (90800). Comparing the deduced amino acid sequence of S. xylosus urease with the amino acid sequence of jack bean urease an overall portion of 56% identical residues was found. For S. xylosus urease a subunit structure of ()₄ was proposed, based on the comparison of the deduced amino acid content of the enzyme subunits with the total amino acid content of the purified enzyme. The staphylococcal enzyme contained no cysteine, as deduced from DNA sequence and confirmed by the determination of the total amino acid content in the purified enzyme. Instead of cysteine, known to be catalytically essential in the plant enzyme, and conserved among all bacterial ureases analyzed so far, threonine was found in S. xylosus. This amino acid-exchange was located within a highly conserved domain of 17 amino acids, supposed to be part of the active site. Sequence analysis of the respective region of Staphylococcus saprophyticus urease showed that it also contains threonine instead of cysteine. In contrast to jack bean urease S. xylosus urease was not affected by the SH-group inhibitor dipyridyl disulfide but was completely inhibited by the serine protease inhibitor phenylmethanesulfonyl fluoride. The presented results indicated that in these staphylococcal strains urea hydrolysis might function in a manner similar to the peptide bond cleavage by chymotrypsin.Abbreviations AA amino acid - ATZ anilino thiazolinone - DPDS dipyridyl disulfide - Kb kilobase pairs - PITC phenylisothiocyanate - PTH phenylthiohydantoin - PMSF phenylmethanesulfonyl fluoride     

Properties of Streptomyces sp. endo-β-xylanases in relation to their applicability in kraft pulp bleaching

A screening of a collection of Streptomyces sp. strains has shown that Streptomyces achromogenes 5028 (S1), Streptomyces longisporus ruber 4–167 (S2) and Streptomyces sp. 8812 (S3) degraded efficiently beechwood xylan. The -xylanase activities present in the culture filtrate of the strains were purified to electrophoretic homogeneity and found to be typical non-debranching endo--xylanases (1,4--D-xylan xylanohydrolases: E.C. 3.2.1.8) with respective molecular weights of 25,000 (S1), 45,000 (S2) and 22,000 (S3). The enzymes were characterized with respect to their temperature–pH relationship and kinetic profile. Immunological experiments suggested that the enzyme produced by S1 belonged to family 11 of glycanases and the S3 enzyme to family 10. The three xylanases adsorbed onto crystalline cellulose but were catalytically inert towards this material, indicating a possible application of these enzymes in biobleaching processes. With respect to its effect on and brightness values in a DEDED bleaching sequence, the xylanase produced by the S1 strain appeared as comparable to a Trichoderma longibrachiatum commercial enzyme preparation (Novozym 431). Streptomyces sp. xylanases may find applications in elemental-chlorine-free bleaching procedures.     

Purification and characterization of homodimeric methylmalonyl-CoA mutase from<Emphasis Type="Italic"> Sinorhizobium meliloti</Emphasis>

High activity (>60 munit/mg protein) of 5-deoxyadenosylcobalamin-dependent methylmalonyl-CoA mutase (EC 5.4.99.2) was constantly found during growth of a strain of the root-nodule-forming bacterium Sinorhizobium meliloti harboring an extra plasmid-encoded copy of the methylmalonyl-CoA-mutase-encoding bhbA gene. The enzyme was purified to homogeneity and characterized. The purified enzyme was found to be a colorless apo-form. The apparent molecular weight of the enzyme was calculated to be 165,000±5,000 by Superdex 200 HR gel filtration. SDS-PAGE of the purified enzyme resolved one protein band with an apparent molecular mass of 80.0±2.0 kDa, indicating that the S. meliloti enzyme is composed of two identical subunits. The NH₂-terminal sequence was identical to that predicted from the bhbA nucleotide sequence. Monovalent cations were required for enzyme activity.Abbreviations AdoCbl 5-Deoxyadenosylcobalamin - KPB Potassium phosphate buffer - MCM Methylmalonyl-CoA mutase - PVDF Polyvinylidene difluoride     

Molecular cloning and expression ofBacillus subtilis bglS gene inSaccharomyces cerevisiae

A 2.7-kb EcoRI DNA fragment carrying aBacillus subtilis endo--1,3-1,4-glucanase gene (bglS) from theE. coli plasmid pFG1 was cloned into anEscherichia coli/yeast shuttle vector to construct a hybrid plasmid YCSH. The hybrid plasmid was used to transformSaccharomyces cerevisiae, and thebglS gene was expressed. Variation between levels ofbglS gene expression inS. cerevisiae was about 2.3-fold, depending on the orientation of the 2.7-kb DNA fragment. Assay of substrate specificity and optimal pH of the enzyme demonstrated that the enzyme encoded by YCSH (bglS) was identical with that found inB. subtilis, but the expression level ofbglS gene inS. cerevisiae (YCSH) was much lower than that inE. coli (YCSH).     

Further characterization of two different,reversible aldehyde oxidoreductases from Clostridium formicoaceticum,one containing tungsten and the other molybdenum

The tungsten- and the molybdenum-containing aldehyde oxidoreductases from Clostridium formicoaceticum show, for aldehydes, K _m values<30 M and K _i values of millimolar concentrations. The tungsten-containing aldehyde oxidoreductase is inactivated to 50% by 3 mM KCN within 1 min, by 1 mM ferricyanide within 5 min, and by 0.05 mM chloralhydrate within 30 s. The molybdenum-containing AOR shows 50% inactivation within 1 min only with 70 mM KCN. The tungsten-containing enzyme is very sensitive to oxygen, especially in the reduced state, whereas the molybdenum-containing enzyme exhibits only moderate oxygen sensitivity without being markedly influenced by the redox state of the enzyme. The tungsten in the aldehyde oxidoreductase is bound to a pterin cofactor (Wco) of the mononucleotide form that is known for molybdopterin cofactor (Moco). The nature of the molybdenum cofactor in the molybdenum-containing aldehyde oxidoreductase is still unclear. The UV/VIS spectrum of the tungsten-containing aldehyde oxidoreductase shows a broad absorption in the range of 400 nm with a millimolar absorption coefficient of 18.1 (reduced form) and 24.8 (dehydrogenated form) at 396 nm. The epr spectrum exhibits two different W(V) signals with the following g values for signal A: 2.035, 1.959, 1.899 and signal B: 2.028, 2.017, 2.002. Dithionite-reduced enzyme shows signals of 4Fe–4S or 2Fe–2S clusters. Initial rate studies with different substrates for the carboxylate reduction led to a Bi Uni Uni Bi mechanism.Abbreviations AOR aldehyde oxidoreductase - NH ₂ CO-MV 1,1-carbamoylmethylviologen - MV methylviologen - TMV 1,1,2,2-tetramethylviologen     

Purification and properties of the NADP-dependent glutamate dehydrogenase from Dictyostelium discoideum

Summary NADP-dependent glutamate dehydrogenase from Dictyostelium discoideum was purified 9300 fold with a yield of 4.6%. The enzyme is a hexamer of apparent molecular weight 294 kDa on Sephacryl S400 and a subunit molecular weight of 52 kDa as determined by SDS gel electrophoresis. The apparent K_mS for -ketoglutarate, NADPH and NH _inf4 ^sup+ are 1.2 mM, 9.7 µM and 2.2 mM respectively, and the purified enzyme has a broad pH optimum with a peak at pH 7.75. GTP has a slight stimulatory effect (22% at 83 µM) as does ADP (11% at 1 mM), and AMP is slightly inhibitory (9% at 1 mM) whereas adenosine, ATP and cAMP have little or no effect. Neither the Zn²⁺ chelating compound 1,10-phenanthroline nor EDTA have any effect on the enzyme while p-hydroxymercuribenzoic acid inhibits enzyme activity (50% at 80 µM) yet N-ethylmaleimide does not.In addition, the NADP-GDH activity varies little during the various stages of morphogenesis.Abbreviations EDTA Ethylenediamine Tetraacetic Acid - Tris Tris(hydroxymethyl)aminomethane - Bis-tris bis(2-hydroxyethyl)imino-tris(hydroxymethyl)methane - TRITON X-100 iso-octylphenoxypoly-ethoxyethanol - pHMB p-Hydroxymercuribenzoic acid     

Lamivudine production via enantioselective deamination by thermostable Bacillus caldolyticus cytidine deaminase

To decrease the costs of producing the anti-HIV drug, lamivudine, an enzymatic conversion process was developed instead of the traditional chemical method. Thermostable cytidine deaminase was over-produced by cloning the cdd gene into E. coli JF611/pCJH53 from Bacillus caldolyticus. The purified cytidine deaminase was recovered from the lysate of the recombinant E. coli JF611/pCJH53 by removing heat-denatured proteins and eluting sequential chromatography. When the enzyme was used to deaminate (–)--l-(2R, 5S)- and (+)--d-(2S, 5R)-1, 3-oxathiolanyl-cytosine, about 68% of the (+)--d-(2S, 5R)-1, 3-oxathiolanyl-cytosine was deaminated into the corresponding (+)-thiauridine maximally.     

Lysosomal sulfate efflux following glycosaminoglycan degradation: measurements in enzyme-supplemented Maroteaux-Lamy syndrome fibroblasts and isolated lysosomes

Studies using lysosomal membrane vesicles have suggested that efflux of the sulfate that results from lysosomal glycosaminoglycan degradation is carrier-mediated. In this study, glycosaminoglycan degradation and sulfate efflux were examined using cultured skin fibroblasts and lysosomes deficient in the lysosomal enzymeN-acetylgalactosamine-4-sulfatase. Such fibroblasts store dermatan sulfate lysosomally, which could be labelled biosynthetically with Na ₂ ³⁵ SO₄. The addition of recombinantN-acetylgalactosamine-4-sulfatase to the media of³⁵S labelled fibroblasts degraded up to 82% of the stored dermatan [³⁵S] sulfate over a subsequent 96 h chase and released inorganic [³⁵S] sulfate into the medium. In the presence of 4-acetamido-4-isothiocyanatostilbene-2,2-disulfonic acid (SITS), sulfate was reused to a minor extent in newly synthesized proteoglycan. Isolated granules from recombinant enzyme supplemented fibroblasts degraded stored dermatan [³⁵S]sulfate to sulfate which was rapidly released into the medium at a rate that was reduced by the extra-lysosomal presence of the lysosomal sulfate transport inhibitors SITS, Na₂SO₄ and Na₂MoO₄. SITS also inhibited dermatan sulfate turnover, although it had no effect on the action of purified recombinant enzymein vitro. These data imply that sulfate clearance occurred concomitantly with dermatan sulfate turnover in the lysosome even at high substrate loading, and that lysosome-derived sulfate, while available, is reutilized minimally in synthetic pathways.Abbreviations SITS 4-acetamido-4-isothiocyanatostilbene-2,-2-disulfonic acid - GAG glycosaminoglycan - 4S N-acetylgalactosamine-4-sulfatase - r4S recombinant humanN-acetylgalactosamine-4-sulfatase - PBS phosphate buffered saline - BME basal modified Eagle's medium - FBS fetal bovine serum - GalNAc4S-GlcA-GalitolNAc4S -(N-acetyl-d-galactosamine-4-sulfate)-(1–4)--d-glucuronic acid)-(1–3)-N-acetyl-d-[1-³H]galactosaminitol-4-sulfate - DS dermatan sulfate - MPS mucopolysaccharidosis     

Specificity towards oligomannoside and hybrid type glycans of the endo-β-N-acetylglucosaminidase B from the basidiomy ceteSporotrichum dimorphosporum

We have previously shown that an endo--N-acetylglucosaminidase (EC 3.2.1.96) named Endo B, isolated from culture filtrates of the basidiomyceteSporotrichum dimorphosporum cleaves asialo-, and to some extent, monosialylated bi-antennary glycans of theN-acetyllactosamine type linked to the asparagine residue of peptide or protein moieties [Bouquelet S, Strecker G, Montreuil J, Spik G (1980) Biochimie 62:43–49]. In the present paper, the substrate specificity of the enzyme towards oligomannoside and hybrid type glycans has been analyzed. The results obtained indicate that ovalbumin glycopeptides containing four to seven mannose residues and bovine lactotransferrin glycopeptides containing four to nine mannose residues were completely hydrolyzed by the enzyme. The degree of cleavage was variable among hybrid type structures, since glycopeptides containing the following glycans: (Gal)₁(GlcNAc)₃(Man)₅(GlcNAc)₂; (GlcNAc)₃(Man)₅(GlcNAc)₂; (GlcNAc)₃(Man)₄(GlcNAc)₂ were not hydrolyzed by the enzyme while the percentage of hydrolysis of a glycopeptide containing (GlcNAc)₂(Man)₅(GlcNAc)₂ glycan reached 90%. The bovine lactotransferrin was partially deglycosylated (40%) in the absence of non-ionic detergent while native ovalbumin glycoprotein was not hydrolyzed by the enzyme.The oligomannoside-and theN-acetyllactosamine-type degrading activities present in the culture filtrates were not separated at any step of the purification procedure. Both activities were eluted as a single component with an apparent molecular mass of 89 kDa suggesting that they are located on the same enzyme molecule.Endo B represents a powerful tool for removing oligomannoside-andN-acetyllactosamine-type glycans fromN-glycopeptides andN-glycoproteins. Moreover, advantages in the use of Endo B in a soluble form as well as in an immobilized form result in its high activity and in its stability to heat denaturation and storage.Abbreviations Gal d-galactose - Man d-mannose - GlcNAc N-acetyl-d-glucosamine - Con A concanavalin A - Asn asparagine - GLC gas liquid chromatography - TLC thin layer chromatography - Endo endo--N-acetylglucosaminidase - Endo B endo--N-acetylglucosaminidase isolated fromSporotrichum dimorphosporum - PBE polybuffer exchanger - SDS-PAGE sodium dodecylsulfate-polyacrylamide gel electrophoresis     

Purification and properties of an extracellular endo-1,4-β-glucanase fromLenzites trabea

An extracellular endo-1,4--glucanase (EC 3.2.1.4) has been isolated and purified from the culture solution of the basidiomyceteLenzites trabea grown on glucose and cellulose. Besides-glucosidase activity (EC 3.2.1.21) no evidence for C₁-activity (EC 3.2.1.91) in the culture solution was found.The endoglucanase has been purified in a four-step procedure including chromatography on Sepharose 6-B and DEAE-Sephadex A-50, adsorption on hydroxylapatite and gel filtration on Bio-Gel P-100. The enzyme showed maximum activity at pH 4.4 and 70°C. A molecular weight of 29000 Daltons was estimated by calibration on Bio-Gel P-100. The enzyme hydrolyses carboxymethyl cellulose (CMC) as well as xylan.List of Abbreviations CMC carboxymethyl cellulose - D.S. degree of substitution - D.P. degree of polymerisation - MW molecular weight     

The Sulfolobus-“Caldariella” group: Taxonomy on the basis of the structure of DNA-dependent RNA polymerases

The similarity of the morphology and of DNA composition, the homology of the component patterns of DNA-dependent RNA polymerases and their immunochemical crossreactivity support the conclusion that several extreme thermoacidophiles are related to each other. We name two new species of the genus Sulfolobus. The first, Sulfolobus solfataricus (DSM 1616 and DSM 1617) has the same GC content in its DNA and the same general properties as S. acidocaldarius, but differs significantly from the latter species in the molecular weights of the 11 components of its RNA polymerase and in the salt requirements of this enzyme. The second, Sulfolobus brierleyi, DSM 1651, differs from S. acidocaldarius in several respects. The cells show much less stability at neutral pH. The GC content is significantly lower. The RNA polymerase lacks two components present in the enzymes from the other species. The residual 9 components show larger size differences from the homologous subunits of the S. acidocaldarius enzyme.Like the enzyme from S. solfataricus, the polymerase from S. brierleyi yields an incomplete immunochemical crossreaction with an antibody against the RNA polymerase from S. acidocaldarius.The isolates DSM 1616 and DSM 1617 of Sulfolobus solfataricus are probably identical with or similar to the Caldariella strains MT 3 and MT 4, isolated by de Rosa et al. (1975).Like all other known archaebacterial RNA polymerases the enzymes from these species are insensitive to rifampicin and streptolydigin.Abbreviations G+C Guanine + Cytosine - HPLC High Performance Liquid Chromatography - S_AB Similarity coefficient between two different RNAs as defined by Fox et al. (1977) - SDS Sodium dodecylsulfate (Sodium laurylsulfate), SSC 0.15 M NaCl, 0.015 M Na Citrate pH 7.4     

Secretory overproduction of Arthrobacter simplex 3-ketosteroid Δ1-dehydrogenase by Streptomyces lividans with a multi-copy shuttle vector

The gene for 3-ketosteroid ¹-dehydrogenase (ksdD) of Arthrobacter simplex was expressed in Streptomyces lividans and the secreted enzyme was overproduced by using a multi-copy shuttle vector composed of pIJ702 and pUC19. Deletional analysis of the recombinant plasmid showed that the entire coding sequence of the ksdD gene was located within a 7-kb segment of the chromosomal DNA obtained from the enzyme-producing strain of A. simplex. When S. lividans carrying the recombinant plasmid was grown in an appropriate medium, the cells produced about 100-fold more 3-ketosteroid ¹-dehydrogenase than the original strain. Although the percentage of enzyme secreted was changed during cultivation, a maximum 55% of the enzyme was secreted into the cultured medium of S. lividans, while A. simplex did not produce the enzyme extracellularly. Secretory overproduction of 3-ketosteroid ¹-dehydrogenase in S. lividans was also identified by sodium dodecyl sulfate/polyacrylamide gel electrophoresis and on native gel, and the enzyme reaction was confirmed by reverse-phase HPLC using 4-androstene-3,17-dione as a substrate.     

Does an animal peptide:N-glycanase have the dual role as an enzyme and a carbohydrate-binding protein?

Recently, we have reported purification and characterization of a de-N-glycosylating enzyme, peptide:N-glycanase (PNGase) found in C3H mouse fibroblast L-929 cells, and designated L-929 PNGase [Suzuki T, Seko A, Kitajima K, Inoue Y, Inoue S (1994)J Biol Chem 269, 17611–18]. The unique properties of L-929 PNGase are that the enzyme had a high affinity to the substrate glycopeptide (e.g.K _m=114 µm for fetuin derived glycopentapeptide) and that the PNGase-catalysed reaction is strongly inhibited by the released free oligosaccharides but not by the free peptides formed, suggesting that L-929 PNGase is able to bind to a certain type of carbohydrate chain. In this study, we report the new findings of the mannan-binding property of L-929 PNGase; the de-N-glycosylating enzyme activity of L-929 PNGase was inhibited by yeast mannan and triomannose, Man1 3(Man1 6)Man, but not by mannose and -methyl-d-mannoside. Furthermore, L-929 PNGase was revealed to bind to the glycan moiety of yeast mannan by using mannan-conjugated Sepharose 4B gel as a ligand, suggesting that L-929 PNGase could serve not only as an enzyme but also as a carbohydrate recognition proteinin vivo. Such dual properties found for animal-derived L-929 PNGase are unique and are not shared with other previously characterized plant- and bacterial-origin PNGases — PNGase A and PNGase F, respectively.Abbreviations GLC gas liquid chromatography - GlcNAc-Asn 2-acetamido-1--(l-aspartamido)-1,2-dideoxy-d-glucose - BSA bovine serum albumin - DTT dithiothreitol - EDTA ethylenediaminetetraacetic acid - Gal d-galactose - GlcNAc N-acetyl-d-glucosamine - Man d-mannose; triomannose, Man1 3(Man1 6)Man; - MES 2-(N-morphorino)ethanesulfonic acid - NeuAc N-acetyl-neuraminic acid - PNGase peptide:N ⁴-(N-accetyl-glucosaminyl)asparagine amidase (peptide:N-glycanase,EC 3.5.1.52) - PNP p-nitrophenyl     

The crypticβ-fructofuranosidase ofSaccharomyces rouxii

Summary The synthesis of-fructofuranosidase in synchronously dividing cells ofS. rouxii was continuous (as opposed to periodic) throughout the budding cycle and followed the increase in cell mass. Similar patterns for cell mass and enzyme increases were observed even in phosphate-deprived cells which did not divide. The-fructofuranosidase activity remained physically cryptic throughout the cell cycle as evidenced by analyses on equilibrium density gradient fractions. The-fructofuranosidase activity released from mechanically disrupted cells resisted sedimentation when subjected to 131 000 g for 1 h, thus ruling out membrane association. Ethyl acetate was routinely employed to break the crypticity barrier. Enzyme in cell-free extract or in cells was equally sensitive to inactivation at pH values below 5 in the presence of ethyl acetate, which suggested that this is an inherent property of the enzyme in question and not a reflection of proteolytic inactivation. The status of-fructofuranosidase in selected species of Saccharomyces was compared with that forS. rouxii and a close similarity withS. bisporus var.mellis was noted. The degree of crypticity encountered in genetically defined strains ofS. cerevisiae (e.g. ×2180 a/) was relatively high (42%) compared with that for commercially derived bakers' and brewers' strains (about 6%). Extant data on the cryptic-fructofuranosidase ofS. rouxii are evaluated and the utility of this system for studying enzyme translocation is discussed.     

Formation of hybrid anthranilate synthetase in vitro from components of Aspergillus and Neurospora

Glutamine-dependent anthranilate synthetase was produced in vitro by mixing the extracts of a trypA and a trypC mutant of Aspergillus nidulans. Neither mutant alone possessed this activity. The enzyme formed in the mixture had the properties of the wild-type anthranilate synthetase which, together with N-(5-phosphoribosyl) anthranilate (PRA) isomerase and indole 3-glycerol phosphate (InGP) synthetase, is found in a 10S multienzyme complex. Extracts of the trypA69 mutant contained a 6.5S protein as the active component—presumably the trypC ⁺ product—which in addition showed PRA isomerase and InGP synthetase activity. Extracts of the trypC801 mutant lacked all three enzyme activities but contained a 4.5S component—the trypA ⁺ gene product—which in vitro showed ammonia-dependent anthranilate synthetase activity. These mutants are analogous in their properties to certain tryp-2 and tryp-1 mutants of Neurospora. When complementary extracts of the two genera were mixed (Aspergillus trypA with Neurospora tryp-1 or Aspergillus trypC with Neurospora tryp-2), a hybrid glutamine-dependent anthranilate synthetase was obtained which showed less than half the activity produced in homologous combinations.This study was supported by Grant GB 22655 from the National Science Foundation to J.A.DeM.     

A comparison of the conversion of 1-amino-2-ethylcyclopropane-1-carboxylic acid stereoisomers to 1-butene by pea epicotyls and by a cell-free system

The characteristics of the conversion of 1-aminocyclopropane-1-carboxylic acid (ACC) to ethylene by pea (Pisum sativum L.) epicotyls and by pea epicotyl enzyme are compared. Of the four stereoisomers of 1-amino-2-ethylcyclopropane-1-carboxylic acid (AEC), only (1R,2S)-AEC is preferentially converted to 1-butene in pea epicotyls. This conversion is inhibited by ACC, indicating that butene production from (1R,2S)-AEC and ethylene production from ACC are catalyzed by the same enzyme. Furthermore, pea epicotyls efficiently convert ACC to ethylene with a low K _m (66 M) for ACC and do not convert 4-methylthio-2-oxo-butanoic acid (KMB) to ethylene, thus demonstrating high specificity for its substrate. In contrast, the reported pea epicotyl enzyme which catalyzes the conversion of ACC to ethylene had a high K _m (389 mM) for ACC and readily converted KMB to ethylene. We show, moreover, that the pea enzyme catalyzes the conversion of AEC isomers to butene without stereodiscrimination. Because of its lack of stereospecificity, its low affinity for ACC and its utilization of KMB as a substrate, we conclude that the reported pea enzyme system is not related to the in-vivo ethylene-forming enzyme.Abbreviations ACC 1-Amino cyclopropane-1-carboxylic acid - AEC 1-amino-2-ethylcyclopropane-1-carboxylic acid - EFE ethylene-forming enzyme - KMB 4-methylthio-2-oxobutanoic acid     

Formation of d-3-hydroxybutyryl-coenzyme A by an acetoacetyl-coenzyme A reductase in Syntrophomonas wolfei subsp. wolfei

Cell-free extracts of Syntrophomonas wolfei subsp. wolfei synthesized d-(-)-3-hydroxybutyryl-coenzyme A (CoA) (the stereoisomer required for the synthesis of poly--hydroxyalkanoate) from acetoacetyl-CoA, but not crotonyl-CoA, and NAD(P)H. Ammonium sulfate fractionation and ion exchange chromatography separated an acetoacetyl-CoA reductase activity that formed d-(-)-3-hydroxybutyryl-CoA from the -oxidation enzyme activity, l-(+)-3-hydroxyacyl-CoA dehydrogenase. The former activity was further purified by hydroxylapatite and affinity chromatography. The most pure acetoacetyl-CoA reductase preparations formed d-(-)-3-hydroxybutyryl-CoA from acetoacetyl-CoA and had high specific activities using either NADH or NADPH as the electron donor. Thus, S. wolfei makes d-(-)-3-hydroxybutyryl-CoA by an acetoacetyl-CoA reductase rather than by a d-isomer specific enoyl-CoA hydratase and the reducing equivalents required for PHA synthesis from acetoacetyl-CoA can be supplied from the NADH made during -oxidation.     

Preparations ofN,N′-ethylene-bridged dipeptides(eXX) constructed from (S)-methionine, -tryptophan, -tyrosine and-N(ɛ)-benzyloxycarbonyllysine through acid-catalyzed cyclization

Summary N, N-Ethylene-bridged bis-(S)-methionine[(2S, 7S)-2, 7-bis(2-methyl-thioethyl)-3,6-diazaoctanedioic acid] derived from (S)-methionine and 1,2-dibromoethane was cyclized and esterified simultaneously in boiling ethanol in the presence of an appropriate amount of strong acid such asp-toluenesulfonic acid, affording a cyclic compound,N, N-ethylene-bridged (S)-methionyl-(S)-methionine ethyl ester {ethyl(2S, 3S)-4-(methylthio)-2-[2-oxo-3-(2-methylthioethyl)-1-piperazinyl] butanoate}, exclusively in 80–90% yields. It was also found that, by applying this method, 70–80% yields of the otherN, N-ethylenebridged dipeptides containing (S)-tryptophan, -tyrosine and -N()-benzyloxycarbonyllysine were obtained.