Polyvalent GalNAcα1→Ser/Thr (Tn) and Galβ1→3GalNAcα1→Ser/Thr (T <Subscript>α</Subscript>) as the most potent recognition factors involved in <Emphasis Type="Italic">Maclura pomifera</Emphasis> agglutinin–glycan interactions

Summary The agglutinin isolated from the seeds of Maclura pomifera (MPA) recognizes a mucin-type disaccharide sequence, Gal13GalNAc (T) on a human erythrocyte membrane. We have utilized the enzyme-linked lectinosorbent assay (ELLSA) and inhibition assay to more systematically analyze the carbohydrate specificity of MPA with glyco-recognition factors and mammalian Gal/GalNAc structural units in lectin–glycoform interactions. From the results, it is concluded that the high densities of polyvalent GalNAc1Ser/Thr (Tn) and Gal13GalNAc1Ser/Thr (T) glycotopes in macromolecules are the most critical factors for MPA binding, being on a nanogram basis 2.0 × 10⁵, 4.6 × 10⁴ and 3.9 × 10⁴ more active than monovalent Gal, monomeric T and Tn glycotope, respectively. Other carbohydrate structural units in mammalian glycoconjugates, such as human blood group Sd (a⁺) related disaccharide (GalNAc14Gal) and P^k/P₁ active disaccharide (Gal14Gal) were inactive. These results demonstrate that the configurations of carbon-4 and carbon-2 are essential for MPA binding and establish the importance of affinity enhancement by high-density polyvalencies of Tn/T glycotopes in MPA–glycan interactions. The overall binding profile of MPA can be defined in decreasing order as high density of polyvalent Tn/T (M.W. > 4.0 × 10⁴) >> Tn-containing glycopeptides (M.W. < 3.0 × 10³) > monomeric T/Tn and P (GalNAc13Gal) > GalNAc > Gal >> Man, LAra, DFuc and Glc (inactive). Our findings should aid in the selection of this lectin for elucidating functions of carbohydrate chains in life processes and for applications in the biomedical sciences.     

Mutationsvorgänge bei der Entstehung von Hämoglobinvarianten

Using recent information on the DNA code, the exact base replacements were ascertained for 46 amino acid substitutions in haemoglobine polypeptide chains. Transitions (replacements purine purine and pyrimidine pyrimidine) turned out to be significantly more frequent than expected under the assumption of random substitution, whereas transversions (replacements purine pyrimidine and pyrimidine purine) were less frequent. In 12 codons, 7 of the -chain, 3 of the -chain, and 2 of the -chain, two triplets each were excluded.

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Direktor: Prof. Dr. F. Vogel

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Die Untersuchungen der Verfasser zum Mutationsproblem werden von der Deutschen Forschungsgemeinschaft unterstützt.     

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.     

Structural diversity of O-polysaccharides and serological classification of <Emphasis Type="Italic">Pseudomonas syringae</Emphasis> pv. <Emphasis Type="Italic">garcae</Emphasis> and other strains of genomospecies 4

Novel O-serotypes were revealed among Pseudomonas syringae pv. garcae strains by using a set of mouse monoclonal antibodies specific to the lipopolysaccharide O-polysaccharide. Structural studies showed that the O-polysaccharide of P. syringae pv. garcae NCPPB 2708 is a hitherto unknown linear L-rhamnan lacking strict regularity and having two oligosaccharide repeating units I and II, which differ in the position of substitution in one of the rhamnose residues and have the following structures: I:3)--L Rha (12)-- L Rha (12)--L-Rha-(13)--L Rha (1;II: 2)--L-Rha-(13) -L-Rha-(12)--L-Rha-(13)--L Rha (1.The branched O-polysaccharides of P. syringae pv. garcae ICMP 8047 and NCPPB 588^T have the same L-rhamnan backbone with repeating units I and II and a lateral chain of 14)- or 13)-linked residues of 3-acetamido-3,6-dideoxy-D-galactose (D-Fuc3NAc). Several monoclonal antibody epitopes associated with the L-rhamnan backbone or the lateral -D-Fuc3NAc residues were characterized.Translated from Mikrobiologiya, Vol. 73, No. 6, 2004, pp. 777–789.Original Russian Text Copyright © 2004 by Ovod, Zdorovenko, Shashkov, Kocharova, Knirel.     

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.     

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.     

A missense mutation (G197→A) in theα-l-fucosidase gene of fucosidosis patients leads to loss ofα-l-fucosidase

Fucosidosis is an autosomal recessive lysosomal storage disease resulting from the absence of -l-fucosidase activity. Two natural missense mutations (G¹⁹⁷A) and (A⁸⁶⁰G) within the -l-fucosidase gene have been reported to be homozygous in four patients with fucosidosis. Expression of wild-type and mutated -l-fucosidase cDNAs in COS-1 cells revealed complete deficiency of -l-fucosidase for the G¹⁹⁷A transition and a normal level of enzyme for A⁸⁶⁰G. We therefore conclude that the change of G¹⁹⁷A is responsible for fucosidosis in the patients while A⁸⁶⁰G is a normal polymorphic variant of -l-fucosidase.     

Structures of the N-linked sugar chains in the PAS-6 glycoprotein from the bovine milk fat globule membrane

The structures of the N-linked sugar chains in the PAS-6 glycoprotein (PAS-6) from the bovine milk fat globule membrane were determined. The sugar chains were liberated from PAS-6 by hydrazinolysis, and the pyridylaminated sugar chains were separated into a neutral (6N) and two acidic chains (6M and 6D), the acidic sugar chains then being converted to neutral sugar chains (6MN and 6DN). 6N was separated into two neutral fractions (6N13 and 6N5.5), while 6MN and 6DN each gave a single fraction (6MN13 and 6DN13). The structure of 6N5.5, which was the major sugar chain in PAS-6, is proposed to be Man16 (Man13) Man14GlcNAc14GlcNAc-PA; 6N13, 6MN13 and 6DN13 are proposed to be Gal13Gal14GlcNAc12Man16 (Gal13Gal14GlcNAc12Man13) Man14GlcNAc14 (Fuc16)GlcNAc-PA;6M and 6D had 1 or 2 additional NeuAc residues at the non-reducing ends of 6MN13 and 6DN13, respectively. © 1998 Rapid Science Ltd     

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.     

Production and characterization of antibodies to the β-(1→6)-galactotetraosyl group and their interaction with arabinogalactan-proteins

Rabbit antisera were raised against -(16)-galactotetraose coupled to bovine serum albumin (Gal₄-BSA). The antisera reacted with arabinogalactan-proteins (AGPs) isolated from seeds, roots, or leaves of radish (Raphanus sativus L.) as revealed by immunodiffusion analysis. Extensive removal of -l-arabinofuranosyl residues from these AGPs enhanced the formation of precipitin with the antisera. The antisera did not react with such other polysaccharides as soybean arabinan-4-galactan, -(14)-galactan, and -(13)-galactan, indicating their high specificity toward the consecutive -(16)-galactosyl side chains of AGPs. The antibodies were purified by affinity chromatography on a column of immobilized -(16)-galactotetraose as ligand. The specificity of the antibodies toward consecutive (16)-linked -galactosyl residues was confirmed by enzyme-linked immunosorbent assay for hapten inhibition against Gal₄-BSA as antigen, which revealed that -(16)-galactotriose and-tetraose were potent inhibitors, while -(13)-or -(14)-galactobioses and -trioses were essentially unreactive. Electron-microscopic observation of immunogold-stained tissues demonstrated that AGPs were localized in the middle lamella as well as at the plasma membrane of primary roots of radish. Agglutination of protoplasts prepared from cotyledons occurred with the antibodies, supporting the evidence for localization of AGPs in the plasma membrane. The antibody-mediated agglutination was inhibited by addition of AGPs or -(16)-galactotetraose.Abbreviations AGP arabinogalactan-protein - BSA bovine serum albumin - ELISA enzyme-linked immunosorbent assay - FITC fluorescein isothiocyanate - Gal₃-BSA -(16)-galactotriose coupled to BSA - Gal₄-BSA -(16)-galactotetraose coupled to BSA - Ig immunoglobulin - 4-Me-GlcpA 4-O-methyl-d-glucopyranosyluronic acid - M_r relative molecular mass The authors wish to thank Dr. J. Ohnishi of Department of Biochemistry, Saitama University, for his help in preparing protoplasts.     

Comparative structural analysis of snail galactans by a radioimmunoassay to elucidate species-specific determinants

Summary Galactans, the storage polysaccharides in the perivitelline fluid of many snails showed a high degree of species-specificity as revealed by quantitative precipitin formations with lectins, polyclonal antisera, myeloma proteins as well as by the reactivity with the enzyme galactose oxidase. However, their chemical compositions were remarkably similar since thed-Gal residues were all linked 13 and 16 glycosidically.The specificity seemed to be related to the different degrees of branching in the various galactans but could also be due to some other minor constituents in some galactans such asl-galactose or phosphate.In this study a Radioimmunoassay was developed using the galactan of the snailLymnaea stagnalis to elucidate those differences which were only related to a unique distribution of the 13 and 16 linkages, since this galactan was composed exclusively ofd-galactose residues. The galactan was labeled by sequential oxidation with galactose oxidase and reduction with tritiated sodium borohydride. Inhibition of the binding of the labeled galactan to insolubilized antibodies was investigated by galactans of different species, their chemically modified products, andd-galactose-composed oligosaccharides of unambiguously identified structures.Inhibition byLymnaea stagnalis galactan was about 45 000 times that ofHelix pomatia galactan. The most complementary oligosaccharide found was -d-Gal13[-d-Gal16]-d-Gal11l-Gro, being about 200 times more effective thand-Gal. However, a fraction with molecular weights between 700 and 1000 isolated from the partially hydrolized galactan was still seven times more effective. From the reactivity of the antiserum with the different oligosaccharides tested the following structure was inferred which most likely represented the complete determinant recognized by the antiserum: -d-Gal13[-d-Gal16]-d-Gal16[-d-Gal13]-d-Gal1. This determinant seemed to be most common inLymnaea stagnalis galactan and its frequency of occurrence appears to correspond to the inhibitory potency of other snail galactans.     

Assessing glycosidic linkage flexibility: Conformational analysis of the repeating trisaccharide unit of Aeromonas salmonicida

Summary A detailed conformational analysis was performed for the synthetic branched trisaccharide -d-Man-NAc-(14)-[-d-Glc-(13)]-l-Rha 1 which represents the repeating unit of the O-antigenic polysaccharide of Aeromonas salmonicida. The study was based on 26 experimental NOE curves from 1D transient NOE experiments, employing Gaussian-shaped inversion pulses at 600 MHz. Eight of the NOE curves were interglycosidic and thus useful for an analysis of glycosidic linkage orientations. Metropolis Monte Carlo (MMC) simulations and minimum-energy calculations with the program GEGOP were used to obtain theoretical NOE curves which were compared to the experimental ones. MMC simulations with different temperature parameters of 310, 600, 900 and 2000 K allowed identification of NOEs which are sensitive towards different conformation distributions-not only different conformations-at both glycosidic linkages in 1. A comparison of trisaccharide 1 with the constituent disaccharides -d-ManNAc-(14)-l-Rha 2 and -d-Glc-(13)-l-Rha 3 revealed effects of branching on glycosidic linkage flexibility. A quantitative evaluation was facilitated by the introduction of entropy-related flexibility parameters. Our study indicates a notable restriction of flexibility, especially at the (13) linkage in 1. Although overall flexibility in 1 is reduced as compared to the constituent disaccharides 2 and 3, it cannot be neglected altogether. In summary, combined transient NOE experiments and MMC simulations provide a simple approach to analyse glycosidic linkage flexibility.     

Molecular characterization of β-thalassemia in Czechoslovakia

Summary We have identified different -thalassemia mutations in 93 members of 34 families of Czech or Slovakian descent using gene amplification, hybridization with specific ³²P-labeled oligonucleotide probes, sequencing of amplified DNA, and gene mapping. The GA mutation at IVS-I-1 was found in 18 families; other Mediterranean mutations were IVS-II-1 (GA), IVS-II-745 (CG), IVS-I-110 (GA), and codon 39 (CT); these were present in 9 additional families. The GT mutation at codon 121, known to cause Heinzbody -thalassemia, was present in 3 families, and the frameshift at codons 82/83 (-G), first described in the Azerbaijanian population, in 2 families. A newly discovered allele was a frameshift at codons 38/39 (-C). One -thalassemia allele was incompletely characterized. We observed in 2 families a TC mutation at position +96 UTR (untranslated region) relative to the termination codon; this mutation likely is a rare polymorphism, -Thalassemia was rare; only one person carried the -^3.7 heterozygosity, and one other had a yet to be identified -thalassemia-1, while seven had the ^{anti 3.7} triplication.     

Synthesis of FimH receptor-active manno-oligosaccharides by reverse hydrolysis using α-mannosidases from Penicillium citrinum,Aspergillus phoenicis and almond

Recombinant Penicillium citrinum -1,2-mannosidase, expressed in Aspergillus oryzae, was employed to carry out regioselective synthesis of -d-mannopyranosyl-(12)-d-mannose. Yields (w/w) of 16.68% disaccharide, 3.07% trisaccharide and 0.48% tetrasaccharide were obtained, with 12 linkages present at 98.5% of the total linkages formed. Non-specific -mannosidase from almond was highly efficient in reverse hydrolysis and oligosaccharide yields of 45–50% were achieved. The products of the almond mannosidase were a mixture of disaccharides (30.75%, w/w), trisaccharides (12.26%, w/w) and tetrasaccharides (1.89%, w/w) with 12, 13 and 16 isomers. -1,2-linkage specific mannosidase from P. citrinum and -1,6-linkage-specific mannosidase from Aspergillus phoenicis were used in combination to hydrolyse the respective linkages from the mixture of isomers, resulting in -d-mannopyranosyl-(13)-d-mannose in 86.4% purity. The synthesised oligosaccharides can potentially inhibit the adhesion of pathogens by acting as "decoys" of receptors of type-1 fimbriae carried by enterobacteria.     

Specific Status of Propithecus spp.

Controversial taxonomic relationships within Propithecus have consistently made conservation and management decisions difficult. We present a multidisciplinary phylogenetic analysis of Propithecus supporting the elevation of 4 subspecies to specific status: P. diadema perrieri P. perrieri, P. diadema candidus P. candidus, P. diadema edwardsi P. edwardsi, and P. verreauxi coquereliP. coquereli; leaving P. diadema diadema as P. diadema and P. verreauxi verreauxi as P. verreauxi.     

Cytochrome P-450-dependent catabolism of triethanolamine in Rhodotorula mucilaginosa

The yeast Rhodotorula mucilaginosa was able to grow in media containing triethanolamine or diethanolamine as the sole nitrogen source. During growth in the presence of triethanolamine, extracts of yeast cells contained increased levels of cytochrome P-450 dependent monooxygenase which catalyzed the oxidative N-dealkylation of aminoalcohols. Formation of diethanolamine, ethanolamine and glyoxylate from triethanolamine was demonstrated, and the identity of the products was verified by thin layer chromatography. These observations suggested the following scheme of triethanolamine catabolism: triethanolamine diethanolamine + glycolaldehyde, diethanolamine ethanolamine + glycolaldehyde, ethanolamine NH₃ + glycolaldehyde glycolate glyoxylate glycerate pathway.     

Studies of the action of ceramide-like substances (d- andl-PDMP) on sphingolipid glycosyltransferases and purified lactosylceramide synthase

We have studied the effects ofD-threo-1-phenyl-2-decanoylamino-3-morpholino-1-propanol (D-PDMP) and itsL-enantiomer on glycosphingolipids in cultured normal human kidney proximal tubular cells. We found thatD-PDMP exerted a concentration-dependent reduction in the metabolic labelling and cellular levels of glucosylceramide (GlcCer), lactosylceramide (LacCer), and the globo-series glycosphingolipids, GbOse₃Cer and GbOse₄Cer. It also directly inhibited the activity of UDP-glucose:ceramide 1 4-glucosyltransferase (GlcT-1) and UDP-galactose: GlcCer 1 4 galactosyltransferase (GalT-2). In contrast,L-PDMP had opposite effects on the metabolic labelling of GlcCer, LacCer, and GbOse₃Cer. The levels of GlcCer and LacCer were increased, while the labelling and level of GbOse₄Cer were strongly reduced. Purified GalT-2 from human kidney was inhibited byD-PDMP and stimulated byL-PDMP. It appears likely that the different glycosphingolipid glycosyltransferases possess similar binding sites for the ceramide moiety, which are blocked by binding toD-PDMP and, in the case of GbOse₄Cer synthase, byL-PDMP as well. The stimulatory effects ofL-PDMP on GlcCer and LacCer synthases may be the result of binding to a modulatory site on the glycosyltransferases; in intact cells, the enzyme-analog complex may afford protection against the normal catabolic inactivation of the enzymes.Abbreviations GalT-2 UDP-galactose:GlcCer -galactosyltransferase - GbOse₃Cer Gal1 4Gal1 GlcCer - GbOse₄Cer GalNAc1 3Gal1 4Gal1 GlcCer - GlcCer glucosylceramide - GlcT-1 UDP-glucose:ceramide -glucosyltransferase - GSLs glycosphingolipids - LacCer lactosylceramide - PDMP threo-1-phenyl-2-decanolyamino-3-morpholino-1-propanol     

β-D-Glycan synthases and the CesA gene family: lessons to be learned from the mixed-linkage (1→3),(1→4)β-D-glucan synthase

Cellulose synthase genes (CesAs) encode a broad range of processive glycosyltransferases that synthesize (14)-D-glycosyl units. The proteins predicted to be encoded by these genes contain up to eight membrane-spanning domains and four `U-motifs' with conserved aspartate residues and a QxxRW motif that are essential for substrate binding and catalysis. In higher plants, the domain structure includes two plant-specific regions, one that is relatively conserved and a second, so-called `hypervariable region' (HVR). Analysis of the phylogenetic relationships among members of the CesA multi-gene families from two grass species,Oryza sativa and Zea mays, with Arabidopsis thaliana and other dicotyledonous species reveals that the CesA genes cluster into several distinct sub-classes. Whereas some sub-classes are populated by CesAs from all species, two sub-classes are populated solely by CesAs from grass species. The sub-class identity is primarily defined by the HVR, and the sequence in this region does not vary substantially among members of the same sub-class. Hence, we suggest that the region is more aptly termed a `class-specific region' (CSR). Several motifs containing cysteine, basic, acidic and aromatic residues indicate that the CSR may function in substrate binding specificity and catalysis. Similar motifs are conserved in bacterial cellulose synthases, the Dictyostelium discoideum cellulose synthase, and other processive glycosyltransferases involved in the synthesis of non-cellulosic polymers with (14)-linked backbones, including chitin, heparan, and hyaluronan. These analyses re-open the question whether all the CesA genes encode cellulose synthases or whether some of the sub-class members may encode other non-cellulosic (14)-glycan synthases in plants. For example, the mixed-linkage (13)(14)-D-glucan synthase is found specifically in grasses and possesses many features more similar to those of cellulose synthase than to those of other -linked cross-linking glycans. In this respect, the enzymatic properties of the mixed-linkage -glucan synthases not only provide special insight into the mechanisms of (14)-glycan synthesis but may also uncover the genes that encode the synthases themselves.     

d-Xylose as inducer of the xylan-degrading enzyme system in the yeast Pullularia pullulans

Summary The specificity of induction of wooddegrading enzymes from Pullularia pullulans was investigated using series of mono-, di- and (14)--trisaccharides or glycanes. A strain of P. pullulans (1740), unable to grow on Avicel or carboxymethyl-cellulose (CMC), uses xylan and steamexploded wood as carbon sources. This strain, thus grown, was evaluated for various enzyme activities. d-Xylose was the nutritional inducer of -xylosidase and -xylanase. d-Glucuronic acid induced activity on CMC and -glucosidase activity was observed regardless of carbon source used. (14)--Xylobiose was not an inducer of -xylanase production, but high levels of this enzyme were obtained with either structural isomers (12) or (13)-. Since synthesis of this enzyme was stimulated by increasing xylose concentration yp to 40 g/l, it is suggested that xylose enters the cells by passive transport and is unable to induce a permease system.Affiliated to the Scientific, Technological and Medical University of Grenoble     

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