Relationship between Flower Induction by Benzoic Acid and its Metabolism in Lemna paucicostata 151

The flower-inducing activities in Lemna paucicostata 151 offour major metabolites of benzoic acid (N-benzoyl aspartate,benzyl 6-O-ß-D-apiofuranosyl-O-ß-D-glucopyranoside,O-benzoyl isocitrate and O-benzoyl malate) were measured, andthe effects on the uptake and metabolism of benzoic acid dueto change in the level of the benzoic acid concentration orto the addition of plant hormones were investigated. N-Benzoylaspartate had weak activity, and O-benzoyl isocitrate and malatehad fairly strong activities, while benzyl 6-O-ß-D-apiofuranosyl-ß-D-glucopyranosideshowed no activity. As the concentration of benzoic acid rose,the ratio of N-benzoyl aspartate increased and that of benzyl6-O-ß-D-apiofuranosyl-O-ß-D-glucopyranosidedecreased. GA₃ and IAA, inhibitors of flower induction by benzoicacid, seemed to promote conversion to N-benzoyl aspartate insteadof to benzyl 6-O-ß-D-apiofuranosyl-ß-D-glucopyranoside.The conversion to N-benzoyl aspartate was considered to be adetoxification process and that to benzyl 6-O-ß-D-apiofuranosyl-ß-D-glucopyranosidemay be directly related to flower induction in Lemna. (Received November 2, 1987; Accepted January 23, 1988)     

Characterization of serum {beta}-glucuronyltransferase involved in chondroitin sulfate biosynthesis

We studied a glucuronyltransferase involved in chondroitin sulfate(CS) biosynthesis in a preparation obtained from fetal bovineserum by heparin-Sepharose affinity chromatography. This enzymetransferred GlcA from UDP-GlcA to the nonreducing GalNAc residuesof polymeric chondroitin. It required Mn²⁺ for maximal activityand showed a sharp pH optimum between pH 5.5 and 6.0. The apparentKm value of the glucuronyltransferase for UDP-GlcA was 51 µM.The specificity was investigated using structurally definedacceptor substrates, which consisted of chemically synthesizedtri-, penta-, and heptasaccharide-serines and various odd-numberedoligosaccharides with a GalNAc residue at the nonreducing terminus,prepared from chondroitin and CS by chondroitinase ABC digestionfollowed by mercuric acetate treatment. The enzyme utilizeda heptasaccharide-serine GalNAcß1-4GlcAß1-3GalNAcß1-4GlcAß1-3Galß1-3Galß1-4Xylß1-O-Serand a pentasaccharide-serine GalNAcß 4GlcAß1-3Galß1-3Galß1-4Xylß1-O-Seras acceptors. In contrast, neither a trisaccharide-serine Galß1-3Galß1-4Xylß1-O-Sernor an     

Types, Formation, and Metabolism of Cytokinins in Leaves of Alnus Glutinosa (L.) Gaertn.

The nature of the cytokinins present in mature, expanded leavesof alder (Alnus glutinosa (L.) Gaertn.) was investigated usinga chromatographic system capable of partially resolving zeatinfrom (?)-dihydrozeatin. A zeatin-like cytokinin, present asboth a ‘free’ form and as a polar conjugate, postulatedto the the O-ß-D-glucoside of zeatin, accounted forthe bulk of the cytokinin activity (detected by the soybeancallus assay). Studies on the fate of [8-¹⁴C]zeatin supplied to detached alderleaves indicated this cytokinin to undergo extensive metabolism.An appreciable proportion of the radioactivity was incorporatedinto 80% methanol-insoluble and soluble acidic/neutral fractions,while adenosine- and adenine-like peaks were prominent metabolitesin the basic n-butanol-soluble fraction. Small amounts of glucosides,with the properties of both zeatin-O-ß-D-glucosideand dihydrozeatin-O-ß-D-glucoside were formed, thelatter becoming the most prominent with time. The ability of alder leaves to form glucoside directly from(?)-dihydrozeatin was assessed using the soybean callus assay.(?)-Dihydrozeatin was subject to a relatively rapid, continuousand substantial conversion to its putative O-ß-D-glucosideand cytokinin activity was consequently conserved while, incontrast, leaves supplied with zeatin exhibited a progressiveloss of cytokinin activity and, in agreement with the radioactivityexperiments, produced only a small amount of activity attributableto the putative O-glucosides. The significance of the observed cytokinin metabolism is discussedin relation to the endogenous cytokinin status of the leaf.     

Hormones in Plants Bearing Nitrogen-fixing Root Nodules: Metabolism of [8-14C]Zeatin in Root Nodules of Alnus glutinosa (L.) Gaertn

The metabolism of [8-¹⁴C]zeatin, supplied via micropipettesover a 24 h period to root nodules of Alnus gliutinosa (L.)Gaertn., was investigated. The major metabolites were tentativelyidentified by means of chromatographic, chemical, and enzymictreatments as adenine, adenosine, trans-zeatin riboside, dihydrozeatin,trans-zeatin-O-ß-D-glucoside, and the O-ß-D-glucosideof dihydrozeatin. In addition, a prominent water-soluble peakof radioactivity was present. This did not appear to be a ribosidebut was biologically active in the soybean callus test. The number and nature of the metabolites formed in the noduleswas similar in both dormant and non-dormant plants.     

Alterations of O-glycan biosynthesis in human colon cancer tissues

Human colon cancer is associated with antigenic and structuralchanges in mucin-type carbohydrate chains (O-glycans). To elucidatethe control of the biosynthesis of these O-glycans in coloncancer, we have studied glycosyltransferase and sulphotransferaseactivities involved in the assembly of elongated O-glycan structures.We analysed homogenates prepared from cancer tissue, adjacentnormal and distal normal tissue from 20 patients. Several transferaseactivities showed pronounced changes in cancer tissue. The changescorrelate with previous findings of a loss of O-glycans in cancermucins, but did not always correlate with levels of Tn, sialyl-Tn,T and Le^x antigens in homogenates or with the differentiationstatus and Duke's stages of the cancer tissue or the patient'sblood type, sex and age. UDP-GlcNAc: Gal NAc-R ß3-N-acetylglucosaminyltransferase(where GlcNAc is N-acetyl-D-glucosamine and GalNAc is N-acetyl-D-galactosamine)synthesizing O-glycan core 3, GlcNAcß1-3GalNAc-, CMP-sialicacid: GalNAc-peptide     

A Further Study of {beta}-Galactosidase Activity in Apples Ripening in Store

Apples (Malus domestica Borkh.) were ripened in 2% O₂ at 3·3°C. The loss of galactose residues from the cortical cellwalls was initiated after 27 d although an increase in the ß-galactosidaseactivity of the tissue did not occur until after 50 d. ß-Galactosidase activity associated with the cellwall was determined using discs of cortical tissue. A substantiallevel of activity was observed prior to picking and subsequentlyduring ripening of the apples in air.     

Development of {beta}-amylase activity and polymorphism in wheat seedling shoot tissues8

Increasing ß-amylase activity in wheat (Triticum aestlvum,var. Star) seedling shoot tissues was consistently accompaniedby the development of a characteristic polymorphism of the enzyme,as shown by electrophoresis employing amylopectin-containingpolyacrylamide gels. Very young shoot tissue contained one principalform of the enzyme (ß1), whereas two other major forms(ß2, ß3) appeared complementary to thisupon further growth. In vitro incubation experiments indicatedthat the polymorphism arose via a probably proteolytic conversionof ß1 into ß2 and ß3. The conversioninvolved neither an activation of ß-amylase nor asignificant modification of ß-amylase component plvalues. The electrophoretic ß-amylase patterns ofsubcellular leaf compartments suggested that ß1 issynthesized in the cytoplasm of leaf mesophyfi cells and thatthe other forms arise upon transfer of this ‘primary’form into the vacuole. The development of shoot ß-amylaseactivity did not require light, but appeared to be under thenegative control of the chloroplast and was stimulated by mineralnutrients. No clear relationship between ß-amylaseactivity and starch metabolism was evident, since the leaf activitywas largely absent from mesophyll protoplasts, could not beunequivocally demonstrated in the mesophyll chioroplasts, anddeveloped regardless of whether the tissues contained significantamounts of starch or not. Key words: Wheat, leaves, ß-amylase, polymorphism, compartmentation     

Hormones in Plants Bearing Nitrogen-fixing Root Nodules: Partial Characterisation of Cytokinins from Root Nodules of Alnus glutinosa (L.) Gaertn

The nature of the substances responsible for the major cytokininactivity in extracts of Alnus glutinosa (L.) Gaertn. root noduleswas investigated by means of chromatographic, chemical, andenzymic methods. Five cytokinins were demonstrated and a furthertwo compounds were probably present in trace amounts. The propertiesof the cytokinins were consistent with their being identicalor closely similar to trans-zeatin, trans-zeatin riboside, zeatin-O-ß-D-glucoside,and a ß-D -glucoside of zeatin riboside together withcertain of the corresponding dihydrozeatin compounds. The greatestpart of the cytokinin activity was represented by the glucosides.     

Identification of O-sulphate substituents on D-glucuronic acid units in heparin-related glycosaminoglycans using novel synthetic disaccharide standards

The two disaccharides, methyl 4-O-(2-O-sulpho-ß-D-gluco-pyranosyl-uronicacid)-2-deoxy-2-amino-     

Novel antigenic determinants from peptidorhamnomannans of Sporothrix schenckii

Antisera were raised in rabbits against acetone-dried yeast-likeand mycelium forms of Sporothrix schenckii. These antisera weretested for immunoprecipitation of peptidorhamnomannans isolatedfrom both cell types. Both antisera reacted strongly with S.schenckiipeptidorhamnomannans, but the reactions were weak with ß-eliminatedpeptidopolysaccharides. These antisera did not recognize theSaccharomyces cerevisiae mannoprotein, and reacted poorly withCeratocystis (Ophiostoma) stenoceras cell wall glycopeptides.Since ß-eliminated glycopeptides were poorly reactive,we investigated the activity of O-glycosidically linked oligosaccharideswhich were liberated from the peptidorhamnomannans by mild alkalinehydrolysis, using a hapten inhibition test. The rates of inhibitionshowed that the immunodominant epitopes in O-linked tetra- andpentasaccharides had the following novel structures:     

The unusual tetrasaccharide sequence GlcA{beta}-3GalNAc(4-sulfate)({beta}1-4GlcA(2-sulfate){beta}1-3GalNAc(6-sulfate) found in the hexasaccharides prepared by testicular hyaluronidase digestion of shark cartilage chondroitin sulfate D

Eight hexasaccharide fractions were isolated from commercialshark cartilage chondroitin sulfate D by means of gel nitrationchromatography and HPLC on an amine-bound silica column afterexhaustive digestion with sheep testicular hyaluronidase. Capillaryelectrophoresis of the enzymatic digests as well as one- andtwo-dimensional 500 MHz ¹H-NMR spectroscopy demonstrated thatthese hexasaccharides share the common core saccharide structureGlcAß1-3GalNAcß1-4GlcAß1-3GalNAcß1-4GlcAß1-3GalNAcwith three, four, or five sulfate groups in different combinations.Six structures had the same sulfation profiles as those of theunsaturated hexasaccharides isolated from the same source afterdigestion with chondroitinase ABC (Sugahara et al., Eur. J.Biochem., 293, 871–880, 1996) and the other two have notbeen reported so far. In the new components, a D disaccharideunit, GlcA(2-sulfate)ß1-3GalNAc(6-sulfate), characteristicof chondroitin sulfate D was arranged on the reducing side ofan A disaccharide unit, GlcAß1-3GalNAc(4-sulfate),forming an unusual A-D tetrasaccharide sequence, GlcAß1-3GalNAc(4-sulfate)-4GlcA(2-sulfate)ß1-3GaINAc(6-sulfate)which is known to be recognized by the monoclonal antibody MO225.These findings support the notion that the tetrasaccharide sequence,GlcAß1-3GalNAc(4-sulfate)ß1-4GlcAß1-3GalNAc(6-sulfate)is included in the acceptor site of a hitherto unreported 2-O-sulfotransferaseresponsible for its synthesis. The sulfated hexasaccharidesisolated in this study will be useful as authentic oligosaccharideprobes and enzyme substrates in studies of sulfated glycosaminogly-cans. sulfated hexasaccharides chondroitin sulfate D hyaluronidase ¹ H-NMR     

Pumpkin (Cucurbita sp.) seed globulin VI. Proteolytic activities appearing in germinating cotyledons

N--benzoyl D,L-arginine p-nitroanilide (BAPA), leucine p-nitroanilide(LPA) and casein hydrolytic activities were assayed in germinatingcotyledons. BAPA hydrolytic activity was not detected in dryseeds, but increased rapidly from 1 to 4 days of germinationand then decreased. LPA and casein hydrolytic activities weredetected in dry seeds and increased from 2 to 4 days. Caseinhydrolytic activity decreased faster than the other two activities. BAPA hydrolytic enzyme was partially purified. It was inhibitedby p-chloromercuribenzoate and activated by ß-mercaptoethanoland dithiothreitol, but was not affected by EDTA, phenylmethylsulfonylfluoride, pumpkin trypsin inhibitor and several divalent cations.It had no ability to hydrolyze globulin or the chain to produce F_ß or smaller polypeptides,respectively, which was referred to as proteolytic activityI in the preceding paper (14), but released small peptides andamino acids from the chain and F_ß. However, it wasdifferent from proteolytic enzyme II which was present in dryseeds and inhibited by EDTA (14). Pumpkin trypsin inhibitor was purified. Its molecular weightwas estimated to be 10,500 by gel filtration. It did not inhibitthe BAPA hydrolytic enzyme. Both proteolytic activities I andII were also not reduced by the inhibitor (14). The inhibitoryactivity decreased gradually during germination. (Received November 9, 1979; )     

Characterization of a novel mucin sulphotransferase activity synthesizing sulphated O-glycan core 1, 3-sulphate-Gal{beta}1-3GalNAc{alpha}-R

A novel sulphotransferase (sulpho-T) activity from rat colonicmucosa was characterized using O-glycan core 1 substrate, Galß1-3GalNAc     

A novel {beta}-galactosidase gene isolated from the bacterium Xanthomonas manihotis exhibits strong homology to several eukaryotic {beta}-galactosidases

The gene encoding a ß-galactosidase from Xanthomonasmanihotis was cloned into Escherichia coli. The gene resideson a 2.4 kb DNA fragment which was isolated from a partial Sau3Alibrary in the cloning vector pUC19 using 5-bromo-4-chloro-3-indolyl-ß-D-galactopyranoside(X-gal) as the selection. The enzyme produced by the clone hasa specificity for ß1-3->ß1-4-linked galactose.The nucleotide sequence of the gene was determined. The deducedprotein sequence contained 597 amino acids yielding a monomericmolecular mass of 66 kDa. The cloned ß-galactosidaseshowed no similarity to any known prokaryotic ß-galactosidase.However, extensive similarity was observed with eukaryotic ß-galactosidasesfrom animals, plants and fungi. The strongest similarity waswith the ß-galactosidases found hi the human and mouselysosomes (42 and 41% identity, respectively). Alignment ofthe X.manihotis and eukaryotic ß-galactosidase sequencesrevealed seven highly conserved domains common to each protein.Additionally, Domain 1 in X.manihotis showed similarity to regionswithin catalytic domains from seven xylanases and cellulasesbelonging to family 10 of glucosyl hydrolases. A region spanningDomain 2 showed similarity to the catalytic domain of endo ß1-3glucanases from tobacco and barley. cellulase ß-galactosidase G_M$$$gangliosidosis Morquio B syndrome Xanthomonas     

Mutations in {beta}-Tubulin Block Transhyphal Migration of Nuclei in Dikaryosis in the Homobasidiomycete Coprinus cinereus

ß-Tubulins from fourteen benomyl-resistant strainsof the homobasidiomycete Coprinus cinereus, which carry thebenA, benB, benC or benD mutations, were analyzed by urea SDS-PAGEor isoelectric focusing and subsequent immunoblot analysis.Electrophoretic aberrations in a major ß-tubulin isotype,denoted ß1 were found in two strains, BEN154 and BEN215,both of which carry benomyl resistance mutations in benA ⁺ Theaberrations of ß1 in BEN154 and BEN215 cosegregatedwith benomyl resistance among the progeny of outcrosses of BEN154 and BEN215 to wild type, indicating that the ß1aberrations were caused by the benA mutations. Both the mutantand wild-type ß1 tubulins were present in the heterozygousdikaryons, BEN 154/wild-type and BEN215/wild-type, ruling outpost-translational modification as a possible cause for theaberrations in ß1. Thus, we conclude that benA isa structural gene for ß1. Transhyphal migration ofnuclei in dikaryosis was blocked in the mycelia of BEN 154 andin its progeny that carried benA (ß1 mutation), demonstratingthat microtubules are involved in the migration process. Nuclearmigration in dikaryosis seems to differ in terms of mechanism,at least in part, from the migration of tetrad nuclei from basidiainto prespores during formation of basidiospores and from themigration of nuclei from basidiospores into hyphae during germination,because a benA mutation blocked the former without affectingthe latter two processes. (Received May 19, 1989; Accepted August 30, 1989)     

Xyloglucan and r{beta}-D-Glucan in Cell Walls of Rice Seedlings

Cell walls of 4-day old rice seedlings were extracted successivelywith ammonium oxalate-oxalic acid, 4% KOH and 24% KOH. A rß-D-glucanpreparation and a xyloglucan preparation were isolated fromthe 4% KOH extract and 24% KOH extract, respectively. Methylationanalysis and enzymic degradation studies of the polysaccharidesshowed that the former was built up predominantly of repeating-oligosaccharideunits of 3-O-rß-cellobiosyl-D-glucose and 3-O-rß-cellotriosyl-D-glucosein a molar ratio of 2.6 : 1.0, and the latter was of repeating-oligosaccharideunits of -D-xylosyl-(16)-rß-D-glucosyl-(14)-[-D-xylosyl-(16)]-rß-D-glucosyl-(14)-D-glucose,-D-xylosyl-(16)-rß-D-glucosyl-(14)-D-glucose and cellobiose. ¹ Present address: Department of Botany, Iowa State University,Ames, Iowa 50011, U.S.A. (Received August 29, 1981; Accepted January 12, 1982)     

r{beta}Carotene Hydroxylase Gene from the Cyanobacterium Synechocystis sp. PCC6803

The ORF sll1468 of Synechocystis sp. PCC6803 was identifiedas a gene for rß-carotene hydroxylase by functionalcomplementation in a rß-carotene-producing Escherichiacoll. The gene product of ORF sll11468 added hydroxyl groupsto the rß-ionone rings of rß-carotene (rß,rß-carotene)to form zeaxanthin (rß,rß-carotene-3,3'-diol).This newly identified rß-carotene hydroxylase doesnot show overall amino acid sequence similarity to the knownrß-carotene hydroxylases. However, it showed significantsequence similarity to rß-carotene ketolases of marinebacteria and a green alga. (Received November 29, 1997; Accepted March 6, 1998)     

Sucrose phosphorylases catalyze transglycosylation reactions on carboxylic acid compounds

Two sucrose phosphorylases were employed for glycosylation of carboxylic acid compounds. Streptococcus mutans sucrose phosphorylase showed remarkable transglycosylating activity, especially under acidic conditions. Leuconostoc mesenteroides sucrose phosphorylase exhibited very weak transglycosylating activity. Three main products were detected from the reaction mixture using benzoic acid and sucrose as an acceptor and a donor molecule, respectively. These compounds were identified as 1-O-benzoyl α-d-glucopyranoside, 2-O-benzoyl α-d-glucopyranose, and 2-O-benzoyl β-d-glucopyranose by 1D-and 2D-NMR analyses of the isolated products and their acetylated products. Time-course analyses proved that 1-O-benzoyl α-d-glucopyranoside was initially produced by the transglycosylation reaction of the enzyme. 2-O-Benzoyl α-d-glucopyranose and 2-O-benzoyl β-d-glucopyranose were produced from 1-O-benzoyl α-d-glucopyranoside by intramolecular acyl migration reaction. S. mutans sucrose phosphorylase showed broad acceptor-specificity. This sucrose phosphorylase catalyzed transglycosylation to various carboxylic compounds such as short-chain fatty acids, hydroxy acids, dicarboxylic acids, and phenolic carboxylic acids. 1-O-Acetyl α-d-glucopyranoside was also enzymatically synthesized by transglucosylation reaction of the enzyme. The sensory test of acetic acid and the glucosides revealed that the sour taste of acetic acid glucosides was significantly lower than that of acetic acid.