The location of (1→3)-β-glucans in the walls of pollen tubes of Nicotiana alata using a (1→3)-β-glucan-specific monoclonal antibody

The location of the (13)--glucan, callose, in the walls of pollen tubes in the style of Nicotiana alata Link et Otto was studied using specific monoclonal antibodies. The antibodies were raised against a laminarinhaemocyanin conjugate. One antibody selected for further characterization was specific for (13)--glucans and showed no binding activity against either a cellopentaose-bovine serum albumin (BSA) conjugate or a (13, 14)--glucan-BSA conjugate. Binding was inhibited by (13)--oligoglucosides (DP, 3–6) with maximum competition being shown by laminaripentaose and laminarihexaose, indicating that the epitope included at least five (13)--linked glucopyranose residues. The monoclonal antibody was determined to have an affinity constant for laminarihexaose of 2.7. 10⁴M^–1. When used with a second-stage gold-labelled, rabbit anti-mouse antibody, the monoclonal antibody probe specifically located the (13)--glucan in the inner wall layer of thin sections of the N. alata pollen tubes.Abbreviations BSA bovine serum albumin - PBS phosphate-buffered saline - ELISA enzyme linked immunosorbent assay - DP degree of polymerization - PVC polyvinyl chloride P.J.M. is an Australian Postdoctoral Research Fellow. We wish to thank Joan Hoogenraad for her technical assistance with the tissue culture, and Althea Wright for her assistance in the preparation of this paper.     

Involvement of β 1,4 galactosyltransferase 1 and Galβ 1→4GlcNAc groups in human hepatocarcinoma cell apoptosis

1,4 galactosyltransferase 1 ( 1,4GT1) synthesizes Gal 14GlcNAc groups in N-linked sugar chains of animal glycoproteins, which have been demonstrated to play an important role in many biological events, including sperm-egg interaction, cell migration and mammalian embryonic development. In this study, the mRNA level of 1,4GT1 was found to increase greatly during the 7721 hepatocarcinoma cells apoptosis induced by cycloheximide. Ricinus Communis Agglutinin-I staining indicated generous increase of Gal 14GlcNAc groups during apoptosis. Further study showed that the 7721 hepatocarcinoma cells transiently transfected with 1,4GT1 were more susceptible to the apoptosis induced by cycloheximide. The increased susceptibility was in accordance to the transfection concentration of 1,4GT1, which also led to the increased Gal 14GlcNAc groups on the transfected cell surface. All the observations suggested that 1,4GT1 and Gal 14GlcNAc groups might be associated with the apoptosis of human hepatocarcinoma cells.     

Immunolocalization of β-(1→4) and β-(1→6)-D-galactan epitopes in the cell wall and Golgi stacks of developing flax root tissues

Summary Most cell wall components are carbohydrate including the major matrix polysaccharides, pectins and hemicelluloses, and the arabinogalactan-protein proteoglycans. Both types of molecules are assembled in the Golgi apparatus and transported in secretory vesicles to the cell surface. We have employed antibodies specific to -(16) and -(14)-D-galactans, present in plant cell wall polysaccharides, in conjunction with immunofluorescence and electron microscopy to determine the location of the galactan-containing components in the cell wall and Golgi stacks of flax root tip tissues. Immunofluorescence data show that -(14)-D-galactan epitopes are restricted to peripheral cells of the root cap. These epitopes are not expressed in meristematic and columella cells. In contrast, -(16)-D-galactan epitopes are found in all cell types of flax roots. Immunogold labeling experiments show that both epitopes are specifically located within the wall immediately adjacent to the plasma membrane. They are also detected in Golgi cisternae and secretory vesicles, which indicates the involvement of the Golgi apparatus in their synthesis and transport. These findings demonstrate that the synthesis and localization of -(14)-D-galactan epitopes are highly regulated in developing flax roots and that different -linked D-galactans associated with cell wall polysaccharides are expressed in a cell type-specific manner.     

Improved recovery of (1→3),(1→4)-β-D-glucan synthase activity from Golgi apparatus ofZea mays (L.) using differential flotation centrifugation

Summary The synthesis of (13), (14)--D-glucan (MG) is associated with the Golgi apparatus of maize. Identification of in vitro reaction products by enzymic hydrolysis and separation of diagnostic oligosaccharides by HPLC was used as a specific assay for MG synthase activity. Large quantities of highly enriched membrane are needed to study the enzyme components of MG synthesis. We directly obtained highly enriched Golgi apparatus in a single flotation centrifugation, without the necessity of an initial downward centrifugation. This new procedure has improved the yield of Golgi apparatus, and has improved recovery of MG synthase activity. The substrate in glucan synthase reactions is UDP-Glc, but UDP-Glc is also a substrate in many other reactions, including the production of simple glucosides. In addition, much of the labeled Glc from UDP-Glc is broken down to Glc-1-P and Glc under MG synthase reaction conditions. We have explored some inhibitors of phosphatase, phosphorylase, phosphodiesterase, and glucosidase activities in order to minimize these competing reactions and increase the activity of MG synthase.Abbreviations BSA bovine serum albumin - DTT dithiothreitol - MG (13), (14)--D-glucan - PAD pulsed amperometric detector     

Properties of Aspergillus japonicus β-fructofuranosidase immobilized on porous silica

-Fructofuranosidase from Aspergillus japonicus MU-2, which produces fructo-oligosaccharides (1-kestose: O--D-fructofuranosyl-(2 1)--D-fructofuranosyl -D-glucopyranoside); and nystose: O--D-fructofuranosyl-(2 1)--D-fructofuranosyl-(2 1)--D-fructofuranosyl -D-glucopyranoside) from sucrose, was immobilized, covalently with glutaraldehyde onto alkylamine porous silica, at high efficiency (64%). Optimum pore diameter of porous silica for immobilization of the enzyme was 91.7 nm. After immobilization, the enzyme's stabilities to temperature, metal ions and proteolysis were improved, while its optimum pH and temperature were unchanged. The highest efficiency of continuous production of fructo-oligosaccharides (more than 60%), using a column packed with the immobilized enzyme, was obtained at 40% to 50% (w/v) sucrose. The half-life of the column during long-term continuous operation at 55°C was 29 days.     

Antimutagenic Role of Autonomous 3′ → 5′-Exonucleases

Original and published data on the antimutagenic role of autonomous 3 5-exonucleases (AE) are analyzed. AE are not bound covalently to DNA polymerases but are often involved in replicative complexes. AE overproduction in bacterial cells is accompanied by a sharp suppression of mutagenesis, whereas AE inactivation in bacteria and higher fungi results in the increase in mutation rates by two to three orders of magnitude. The combined action of AE and DNA polymerases substantially improves the fidelity of their functioning in vitro. The fidelity of nuclease-free DNA polymerases and increases by two to three orders of magnitude in the presence of AE. The fidelity of moderately processive DNA polymerase I increases by two orders of magnitude, and that of highly processive DNA polymerase increases by a factor of 5–10, although both these polymerases possess their own 3 5-exonucleolytic activity. In biochemical experiments, AE was shown to participate directly in the correction of errors made by DNA polymerase I. The presence of AE in multienzyme DNA polymerase complexes increases their fidelity by a factor of 5–10. A model of extrinsic proofreading by AE in DNA biosynthesis is proposed. An investigation of thirty objects from all three kingdoms of life (from archaea and bacteria to mammals, including humans) has shown that AE account for 30–90% of the total cellular 3 5-exonucleolytic activity. Therefore, AE increase significantly the intracellular ratio of 3 5-exonuclease to DNA polymerase activities in a wide phylogenetic variety of species, which always leads to the increasing fidelity of DNA biosynthesis.     

Formation of nucleoside 5′-phosphoramidates under potentially prebiological conditions

Summary Adenosine 5-phosphoramidates form when solutions containing adenosine 5-polyphosphates p_nA (n 3) or P₁, P₂-diadenosine 5-diphosphate and amines are allowed to dry out. Mg ions catalyze these reactions. We have studied systems containing ammonia, imidazole, glycine, ethylenediamine and histamine. The yields of adenosine 5-phosphoramidates range from 10–50 % based on the nucleotide. The prebiotic significance of the reactions is discussed.Abbreviations Im imidazole - hist histamine - gly glycine - en ethylenediamine - CDI 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide hydrochloride - EDTA ethylenediaminetetraacetic acid - A adenosine - P_n (n = 1, 2 ) linear polyphosphate containing n phosphate residues - p_nA adenosine 5-polyphosphate containing n phosphate residues - ADP adenosine 5-diphosphate - ATP adenosine 5-triphosphate - AppA P₁, P₂-diadenosine 5-diphosphate - gly-pA adenylyl-(5N)-glycine - ImpA adenosine 5-phosphorimidazolide - NH₂-pA adenosine 5-phosphoramidate - en-pA adenylyl-(5N)-ethylenediamine - hist (NH) - pA adenosine 5-phospho-[2-(4-imidazolyl)-ethylamide] - hist(Im)-pA adenosine 5-phospho-[4-(2-aminoethyl)-imidazolide] - enP_1,2 phosphoramidates of ethylenediamine derived from H₃PO₄ and H₄P₂O₇     

Structural analyses of new tri- and tetrasaccharides produced from disaccharides by transglycosylation of purified Trichoderma viride β-glucosidase

A new -glucosidase was partially purified from Trichoderma viride cellulase. This -glucosidase catalyzed a transglycosylation reaction of cellobiose to give -D-Glc-(16)--D-Glc-(14)-D-Glc (1, yield: 18.8%) and -D-Glc-(16)--D-Glc-(16)--D-Glc-(14)-D-Glc (2, 3.7%), regioselectively. Furthermore, the enzyme regioselectively converted laminaribiose and gentiobiose into -D-Glc-(16)--D-Glc-(13)-D-Glc (3, 15.3%) and -D-Glc-(16)--D-Glc-(16)-D-Glc (4, 20.2%), respectively. The structures (1–4) of the products were determined by ¹H and ¹³C NMR spectroscopies. This high regio- and stereoselectively of the -glucosidase could be applied for oligosaccharide synthesis.     

Catabolism of 5-hydroxyisoflavones by fungi of the genus Fusarium

Fusarium oxysporum f. sp. pisi and F. solani f. sp. cucurbitae degrade the isoflavone biochanin A (I) along the sequence: ldihydrobiochanin A3-(p-methoxyphenyl)-4,6-diketo-5,6-dihydro-4H-pyran 3,4-dihydroxyphenylacetic acid. F. oxysporum f. sp. apii, F. moniliforme, F. aquaeductum and F. solani f. sp. phaseoli first O-demethylate I to genistein, whichisdegraded to dihydrogenistein 3-(p-hydroxyphenyl)-4,6-diketo-5,6-dihydro-4H-pyran 3,4-dihydroxyphenylacetic acid. The significance of these alternative homologous catabolic routes are discussed.Abbreviations TLC Thin layer chromatography - NMR Nuclear magnetic resonance - HPLC High performance liquid chromatography - UV ultraviolet Dedicated to Prof. Dr. Karl Schneider, Münster, at the occasion of his 70th birthday     

Purification of (1→3)-β-glucan endohydrolase isoenzyme II from germinated barley and determination of its primary structure from a cDNA clone

A (13)--D-glucan 3-glucanonydrolase (EC 3.2.1.39) of apparent M _r 32 000, designated GII, has been purified from germinated barley grain and characterized. The isoenzyme is resolved from a previously purified isoenzyme (GI) on the basis of differences in their isoelectric points; (13)--glucanases GI and GII have pI values of 8.6 and 10.0, respectively. Comparison of the sequences of their 40 NH₂-terminal amino acids reveals 68% positional identity. A 1265 nucleotide pair cDNA encoding (13)--glucanase isoenzyme GII has been isolated from a library prepared with mRNA of 2-day germinated barley scutella. Nucleotide sequence analysis of the cDNA has enabled the complete primary structure of the 306 amino acid (13)--glucanase to be deduced, together with that of a putative NH₂-terminal signal peptide of 28 amino acid residues. The (13)--glucanase cDNA is characterized by a high (G+C) content, which reflects a strong bias for the use of G or C in the wobble base position of codons. The amino acid sequence of the (13)--glucanase shows highly conserved internal domains and 52% overall positional identity with barley (13, 14)--glucanase isoenzyme EII, an enzyme of related but quite distinct substrate specificity. Thus, the (13)--glucanases, which may provide a degree of protection against microbial invasion of germinated barley grain through their ability to degrade fungal cell wall polysaccharides, appear to share a common evolutionary origin with the (13, 14)--glucanases, which function to depolymerize endosperm cell walls in the germinated grain.     

Expression sites and developmental regulation of genes encoding (1→3,1→4)-β-glucanases in germinated barley

Expression sites of genes encoding (13,14)--glucan 4-glucanohydrolase (EC 3.2.1.73) have been mapped in germinated barley grains (Hordeum vulgare L.) by hybridization histochemistry. A³²P-labelled cDNA (copy DNA) probe was hybridized to cryosections of intact barley grains to localize complementary mRNAs. No mRNA encoding (13,14)--glucanase is detected in ungerminated grain. Expression of (13,14)--glucanase genes is first detected in the scutellum after 1 d and is confined to the epithelial layer. At this stage, no expression is apparent in the aleurone. After 2 d, levels of (13,14)--glucanase mRNA decrease in the scutellar epithelium but increase in the aleurone. In the aleurone layer, induction of (13,14)--glucanase gene expression, as measured by mRNA accumulation, progresses from the proximal to distal end of the grain as a front moving away from, and parallel to, the face of the scutellum.Abbreviations cDNA copy DNA - RNase ribonuclease     

Purification and characterization of the 5′ → 3′ exonuclease domain-deleted Thermus filiformis DNA polymerase expressed in Escherichia coli

The gene encoding 5 3 exonuclease domain-deleted Tfi DNA polymerase, named 5 3 Exo^– Tfi fragment, from Thermus filiformis was expressed in Escherichia coli under the control of the tac promoter on a high-copy plasmid, pJR. The expressed enzyme was purified 27-fold with a 19% yield and a specific activity of 2621 U mg^–1 protein. The 5 3 exonuclease domain of Tfi DNA polymerase was removed without significant effect on enzyme activity and stability. PCR conditions for the 5 3 Exo^– Tfi fragment were more tolerant to the buffer composition as compared to the full-length enzyme.     

Hydrolysis of oligosaccharides of the β-(1→4)-linked d-xylose series by an endo(1→4)-β-d-xylanase from the anaerobic rumen fungus Neocallimastix frontalis

An endo-(14)--d-xylanase from Neocallimastix frontalis was purified by anion-exchange chromatography. The enzyme had an apparent molecular mass of 30 kDa on SDS-PAGE and exhibited maximum activity at 50°C and at pH values between 6.0 and 6.6. Kinetic studies on the hydrolysis of xylo-oligosaccharides, ranging from xylobiose to xylodecaose, showed that xylohexaose and xyloheptaose were the preferred substrates for the enzyme and that xylobiose, xylotriose and xylotetraose were not hydrolysed. Xylose was not a product of the hydrolysis of any of the xylo-oligosaccharide substrates tested. The enzyme appeared to have a strong preference for the hydrolysis of the internal glycosidic bonds of the oligosaccharides, which is typical of endo-(14)--d-xylanase activity, but it differed from other fungal endo-(14)--d-xylanases in that it had uniform action on the various internal linkages in the xylo-oligosaccharides.V. Garcia-Campayo, S.I. McCrae and T.M. Wood are with The Rowett Research Institute, Greenburn Road, Bucksburn, Aberdeen AB2 9SB, UK     

One-bond carbon-proton coupling constants: Angular dependence in β-linked oligosaccharides

Summary The angular dependence of¹J_C,H in model compounds related to -linked oligosaccharides has been established by FPT INDO quantum chemical calculations. Values calculated for models of (1 1)-, (1 2)-, (1 3)- and (1 4)-linked disaccharides were compared, and the effect of the orientation of HO-2 elucidated. The angular dependence of¹J_C,H on the torsional angles ^H and ^H and the solvent dielectric constant (s) was characterized in the form:¹J_C,H = A cos2+B cos + C sin2 + D since + E + Fe. The¹J_C,H values, measured by DEPT methods for C-1-H-1 and C-X-H-X in cellobiose, cyclic trisaccharide and hexopyranoses were used to adjust the calculated angular dependences. Based on the occurrence of the conformers for agarobiose, neoagarobiose, mannobiose and methyl -xylobioside, the thermodynamically averaged <¹J_C,H > values were calculated. The results obtained (<¹J_C-1,H-1 > 162.4, <¹J_{C-4, H-4} > 147.6 Hz for methyl -xylobioside; <¹J_C-1,H-1 > 162.4 and <¹J_C-4,H-4] > 147.6 Hz for mannobiose; <¹J_C-1,H-1 > 162.8 Hz for neo agarobiose and <¹J_C-1,H-1 > 163.2 Hz for agarobiose) agree well with the experimental values of 162.7, 147.5, 160.4, 147.2, 160.9 and 165.7 Hz, respectively.     

Changes in cell wall polysaccharides in developing barley (<Emphasis Type="Italic">Hordeum vulgare</Emphasis>) coleoptiles

Cell wall polysaccharides in developing barley coleoptiles were examined using acetic acid–nitric acid extraction, alditol acetate and methylation analyses and enzymatic digestion. The coleoptile cell wall from imbibed grain was rich in pectic polysaccharides (30 mol%), arabinoxylan (25 mol%), cellulose (25 mol%) and xyloglucan (6 mol%), but contained only low levels of (13,14)--D-glucan (1 mol%). During 5 days of coleoptile growth, pectic polysaccharides decreased steadily to about 9 mol%, while (13,14)--D-glucan increased to 10 mol%. Following the cessation of growth of the coleoptiles at about 5 days, (13,14)--D-glucan content rapidly decreased to 1 mol%. The cellulose content of the walls remained at about 35–40 mol% throughout coleoptile growth. Similarly, arabinoxylan content remained essentially constant at 25–30 mol% during growth, although the ratio of substituted to unsubstituted 4-linked xylosyl units decreased from about 4:1 to 1:1. Xyloglucan content ranged from 6 mol% to 10 mol% and the oligosaccharide profile determined using a xyloglucan-specific endoglucanase and MALDI-TOF mass spectrometry indicated that the oligosaccharides XXGG and XXGGG were the principal components, with one and two acetyl groups, respectively, Thus, dramatic changes in wall composition were detected during the growth of barley coleoptiles, both with respect to the relative abundance of individual wall constituents and to the fine structure of the arabinoxylans.     

Purification and characterization of (1→3, 1→4)-β-glucan endohydrolases from germinated wheat (Triticum aestivum)

A (13, 14)--glucan 4-glucanohydrolase [(13, 14)--glucanase, EC 3.2.1.73] was purified to homogeneity from extracts of germinated wheat grain. The enzyme, which was identified as an endohydrolase on the basis of oligosaccharide products released from a (13, 14)--glucan substrate, has an apparent pI of 8.2 and an apparent molecular mass of 30 kDa. Western blot analyses with specific monoclonal antibodies indicated that the enzyme is related to (13, 14)--glucanase isoenzyme EI from barley. The complete primary structure of the wheat (13, 14)--glucanase has been deduced from nucleotide sequence analysis of cDNAs isolated from a library prepared using poly(A)⁺ RNA from gibberellic acid-treated wheat aleurone layers. One cDNA, designated LW2, is 1426 nucleotide pairs in length and encodes a 306 amino acid enzyme, together with a NH₂-terminal signal peptide of 28 amino acid residues. The mature polypeptide encoded by this cDNA has a molecular mass of 32085 and a predicted pI of 8.1. The other cDNA, designated LW1, carries a 109 nucleotide pair sequence at its 5 end that is characteristic of plant introns and therefore appears to have been synthesized from an incompletely processed mRNA. Comparison of the coding and 3-untranslated regions of the two cDNAs reveals 31 nucleotide substitutions, but none of these result in amino acid substitutions. Thus, the cDNAs encode enzymes with identical primary structures, but their corresponding mRNAs may have originated from homeologous chromosomes in the hexaploid wheat genome.     

Point mutations in the upstream region of the α-galactosidase A gene exon 6 in an atypical variant of Fabry disease

Summary Single point mutations in the upstream region of exon 6 of the -galactosidase A gene were found in two Japanese cases of the cardiac form of Fabry disease; ³⁰¹ArgGln (⁹⁰²GA) in a case that has already been published and ²⁷⁹GlnGlu (⁸³⁵CG) in a new case. They both expressed markedly low, but significant, amounts of residual activity in COS-1 cells. In contrast, two unrelated cases with classic Fabry disease were found to have different point mutations, which showed a complete loss of enzyme activity in a transient expression assay; ³²⁸GlyArg (⁹⁸²GA) in the downstream region of exon 6 in one case and two combined mutations, ⁶⁶GluGln (¹⁹⁶GC)/¹¹²ArgCys (³³⁴CT), in exon 2 in the other. We conclude, on the basis of the results recorded in this study and those in previous reports, that the pathogenesis of atypical Fabry disease is closely associated with point mutations in the upstream region of exon 6 of the -galactosidase A gene.     

Synthesis of Gal-β-(1→4)-GlcNAc-β-(1→6)-[Gal-β- (1→3)]-GalNAc-α-OBn oligosaccharides bearing O-methyl or O-sulfo groups at C-3 of the Gal residue: specific acceptors for Gal: 3-O-sulfotransferases

Our recent studies have revealed the existence of two distinct Gal: 3-O-sulfotransferases capable of acting on the C-3 position of galactose in a Core 2 branched structure, e.g., Gal14GlcNAc16(Gal13)GalNac1OBenzyl as acceptor to give 3-O-sulfoGal14GlcNAc13(Gal13)GalNAc1OB 20 and Gal14GlcNAc16(3-O-sulfoGal13)GalNAc1OB 23. We herein report the synthesis of these two compounds and also that of other modified analogs that are highly specific acceptors for the two sulfotransferases. Appropriately protected 1-thio-glycosides 7, 8, and 10 were employed as glycosyl donors for the synthesis of our target compounds.     

Over-expression of the gene (bglBC1) from Bacillus circulans encoding an endo-β-(1→ 3),(1→ 4)-glucanase useful for the preparation of oligosaccharides from barley β-glucan

An endo--(13),(14)-glucanase gene (bglBC1) from Bacillus circulans ATCC21367 was modified by substituting its native promoter with a strong promoter, BJ27X, to increase expression of the gene when cloned into B. subtilis RM125 and B. megaterium ATCC14945. A 771-bp endo--(13),(14)-glucanase open reading frame was inserted into a new shuttle plasmid, pBLC771, by ligating the ORF and pBE1, the latter of which contained the strong promoter, BJ27X. B. subtilis, transformed with the recombinant plasmid pBLC771, produced an extracellular endo--(13),(14)-glucanase that was 130 times (7176 mU ml^–1) more active than that of the gene donor cells (55 mU ml^–1), while the enzyme from the transformed B. megaterium was 7 times (378 mU ml^–1) more active than that of the gene donor cells. M _r of the enzyme was 28 kDa, with proteolytic processing of the enzyme being observed only in B. subtilis cells. The major products of water-soluble -glucan hydrolyzed by over-produced endo--(13),(14)-glucanase were tri- and tetra-oligosaccharides which can be developed as useful products such as anti-hypercholesterolemic, anti-hypertriglyceridemic, and anti-hyperglycemic agents.     

β-Glucanases in developing cotton (Gossypium hirsutum L.) fibres

Cotton fibres possess several -glucanase activities which appear to be associated with the cell wall, but which can be partially solubilised in buffers. The main activity detected was that of an exo-(13)--d-glucanase (EC 3.2.1.58) but which also had the characteristics of a -glucosidase (EC 3.2.1.21). Endo-(13)--d-glucanase activity (EC 3.2.1.39) and much lower levels of (14)--d-glucanase activity were also detected. The exo-(13)--glucanase showed a maximum late on (40 days post-anthesis) in the development of the fibres, whereas the endo-(13)--glucanase activity remained constant throughout fibre development. The -glucanase complex associated with the cotton-fibre cell wall also functions as a transglucosylase introducing, inter alia, (16)--glucosyl linkages into the disaccharide cellobiose to give the trisaccharide 4-O--gentiobiosylglucose.Abbreviations CMC carboxymethylcellulose - ONPG o-nitrophenyl--d-glucopyranoside - TLC thin-layer chromatography Presented at the Third Cell Wall Meeting held in Fribourg in 1984