Composition and structure of galactomannan from the seed of Gleditsia ferox Desf

Galactomannan, a heteropolysaccharide with a molecular weight of 1660 kDa, was isolated form the seed of Gleditsia ferox Desf., introduced in Russia, with a yield of 18.9%. Its aqueous solutions were optically active ([alpha]D = +30.5 degrees) and highly viscous ([eta] = 1430 ml/g). Analysis of the heteropolysaccharide using chemical, enzymatic, and chromatographic procedures showed that it consists of D-mannopyranose and D-galactopyranose residues (molar ratio, 2.54:1). The main chain of this galactomannan consists of 1,4-beta-D-mannopyranose residues, 39.2% of which are substituted at C6 with single residues of alpha-D-galactopyranose. The probability of occurrence of mannobiose units differentially substituted with galactose was determined by 13C-NMR data and equaled, respectively, 0.37, 0.47, and 0.16 for non-substituted Man-Man units, monosubstituted Gal(Man-Man) and (Man-Man)Gal units taken together, and for the disubstituted Gal(Man-Man)Gal units.     

Galactomannan from the seeds of Ural licorice (Glycyrrhiza uralensis Fisch.)

Galactomannans from the seeds of Ural licorice (Glycyrrhiza uralensis Fisch.) obtained by hot water extraction of freshly ripened (GGu-1) and overwintered (GGu-2) seeds were studied. GGu-1 and GGu-2 (yield, 1.98 and 1.99% of the seed weight) had molecular weights of 1379 and 877 kDa, respectively; their solutions were characterized by high viscosity ([eta] 1193.1 and 765.8 mg/g, respectively) and optical activity ([alpha]D +64.8 and +65.6 deg, respectively). Their galactose-to-mannose ratio was 1 : 1.52 and 1 : 1.50, respectively. According to IR and 13C NMR spectroscopic data and methylation analysis, the polymeric chains of GGu-1 and GGu-2 are comprised of 1,4-beta-D-mannopyranose residues substituted at C-6 with single alpha-D-galactopyranose residues. The content of mannobiose units Man-Man, (Gal)Man-Man / Man-Man(Gal), and (Gal)Man-Man(Gal) differentially substituted with galactose in macromolecules GGu-1 and GGu-2 was 25.2, 18.4 and 55.9% for GGu-1 and 26.5, 32.5, and 41.0% for GGu-2.     

Fractional isolation and study of the structure of galactomannan from sophora (Styphnolobium japonicum) seeds

Two fractions (1 and 2) of the galactomannan from seeds of sophora (Styphnolobium japonicum) were isolated using cold and hot aqueous extraction with a total yield of 12.88%. The two fractions differed by the ratio between mannose (Man) and galactose (Gal) residues (4.8:1 and 5.3:1, respectively) and molecular weight (1190 and 1400 kDa, respectively). Aqueous solutions of these fractions were optically active ([alpha]D +4.80 degrees and -3.36 degrees, respectively) and highly viscous ([eta] 1028.8 and 1211.2 ml/g). 13C NMR spectra of both fractions were identical with respect to the number and positions of signals, which indicates that their primary structures were identical. Using chemical and spectroscopic (IR and NMR) methods, it was shown that the galactomannan has a main chain consisting of 1,4-beta-D-mannopyranose, some residues of which (16 and 17% in fractions 1 and 2, respectively) are alpha-galactosylated at the C-6 position. Frequencies of differently substituted mannobiose blocks in the chain, calculated for fraction 1 using NMR spectroscopic data, were 0.13 for the disubstitited blocks Gal(Man-Man)Gal, 0.37 for the sum of monosubstituted blocks Gal(Man-Man) and (Man-Man)Gal, and 0.50 for the unsubstituted block Man-Man.     

Galactomannan from the seeds of Ural licorice (<Emphasis Type="Italic">Glycyrrhiza uralensis</Emphasis> Fisch.)

Galactomannans from the seeds of Ural licorice (Glycyrrhiza uralensis Fisch.) obtained by hot water extraction of freshly ripened (GGu-1) and overwintered (GGu-2) seeds were studied. GGu-1 and GGu-2 (yield, 1.98 and 1.99% of the seed weight) had molecular weights of 1379 and 877 kDa, respectively; their solutions were characterized by high viscosity ([η 1193.1 and 765.8 mg/g, respectively) and optical activity ([α_D, +64.8 and +65.6 deg, respectively). Their galactose-to-mannose ratio was 1: 1.52 and 1: 1.50, respectively. According to IR and ¹³C NMR spectroscopic data and methylation analysis, the polymeric chains of GGu-1 and GGu-2 are comprised of 1,4-β-D-mannopyranose residues substituted at C-6 with single α-D-galactopyranose residues. The content of mannobiose units Man-Man, (Gal)Man-Man/Man-Man(Gal), and (Gal)Man-Man(Gal) differentially substituted with galactose in macromolecules GGu-1 and GGu-2 was 25.2, 18.4 and 55.9% for GGu-1 and 26.5, 32.5, and 41.0% for GGu-2.     

Galactomannan from the seeds of chinese honey locust (Gleditsia sinensis Lam.)

By the hot water extraction method, galactomannan was extracted (4.5% yield of the seed mass) from the seeds of Chinese honey locust (Gleditsia sinensis Lam). It had a molecular weight of 1230 kDa, and its solutions had a high viscosity [η] of 1064 ml/g and optical activity [α]_D of +21.4°. The polysaccharide consists of mannose and galactose residues in the molar ratio 2.69: 1. In the galactomannan macromolecule the backbone is formed by 1,4-β-D-mannopyranose residues, 37% of which are substituted by α-D-galactopyranose at C6. By ¹³C-NMR-spectroscopy, fragments of differently galactose-substituted mannobiose units were found to be in the galactomannan being studied: Man-Man, (Gal)Man-Man, and Man-Man(Gal) in the ratio of 0.23: 0.47: 0.30.     

Determination of the Primary and Fine Structures of a Galactomannan from the Seed of Gleditsia triacanthos f. inermis L.

Galactomannan, a polysaccharide with a molecular weight of 660 kDa, was isolated for the first time from the seed of Gleditsia triacanthos f. inermis (yield, 15.4%). Its aqueous solutions were optically active ([] _D = +31.0°) and highly viscous ([] = 578 ml/g). Analysis of this heteropolysaccharide using chemical, enzymatic, and chromatographic procedures, as well as IR and ¹³C NMR spectroscopy, showed that it consists of D-mannopyranose and D-galactopyranose residues (molar ratio, 2.42 : 1). The main chain of this galactomannan comprises 1,4--D-mannopyranose residues, 41% of which are substituted at C6 with single residues of -D-galactopyranose. The probability of occurrence in the chain of mannobiose units substituted otherwise, determined experimentally, was 0.16 for the Man–Man unit, 0.50 for the Gal(Man–Man) and (Man–Man)Gal units, and 0.34 for the disubstituted Gal(Man–Man)Gal unit.     

Composition and Structure of Galactomannan from the Seed of Gleditsia ferox Desf.

Galactomannan, a heteropolysaccharide with a molecular weight of 1660 kDa, was isolated from the seed of Gleditsia ferox Desf., introduced in Russia, with a yield of 18.9%. Its aqueous solutions were optically active ([]_D = +30.5°) and highly viscous ([] = 1430 ml/g). An analysis of the heteropolysaccharide using chemical, enzymatic, and chromatographic procedures showed that it consists of D-mannopyranose and D-galactopyranose residues (molar ratio, 2.54 : 1). The main chain of this galactomannan consists of 1,4--D-mannopyranose residues, 39.2% of which are substituted at C6 with single residues of -D-galactopyranose. The probability of occurrence of mannobiose units differentially substituted with galactose was determined by ¹³C-NMR data and equaled, respectively, 0.37, 0.47, and 0.16 for non-substituted Man–Man units, monosubstituted Gal(Man–Man) and (Man–Man)Gal units taken together, and for the disubstituted Gal(Man–Man)Gal units.     

Biosynthesis of the O-glycosidically linked oligosaccharide chains of fetuin. Indications for an alpha-N-acetylgalactosaminide alpha 2 leads to 6 sialyltransferase with a narrow acceptor specificity in fetal calf liver

Fetal calf liver microsomes were found to be capable of sialylating 14C-galactosylated ovine submaxillary asialomucin. The main oligosaccharide product chain could be obtained by beta-elimination under reductive conditions and was identified as NeuAc alpha 2 leads to 3Gal beta 1 leads to 3GalNAcol (where GalNAcol represents N-acetylgalactosaminitol) by means of high performance liquid chromatography (HPLC) analysis and methylation. The branched trisaccharide Gal beta 1 leads to 3(NeuAc alpha 2 leads to 6)-GalNAcol and the disaccharide NeuAc alpha 2 leads to 6GalNAcol were not formed. Very similar results were obtained when asialofetuin and antifreeze glycoprotein were used as an acceptor. When 3H-sialylated antifreeze glycoprotein ([3H]NeuAc alpha 2 leads to 3Gal beta 1 leads to 3GalNAc-protein) was incubated with fetal calf liver microsomes and CMP-[14C]NeuAc, a reduced tetrasaccharide could be isolated. The structure of this product chain appeared to be [3H]NeuAc alpha 2 leads to 3Gal beta 1 leads to 3([14C]NeuAc alpha 2 leads to 6)GalNAcol, as established by means of HPLC analysis, specific enzymatic degradation with Newcastle disease virus neuraminidase, and periodate oxidation. These data indicate that fetal calf liver contains two sialyltransferases involved in the biosynthesis of the O-linked bisialotetrasaccharide chain. The first enzyme is a beta-galactoside alpha 2 leads to 3 sialyltransferase which converts Gal beta 1 leads to 3 GalNAc chains to the substrate for the second enzyme, a (NeuAc alpha 2 leads to 3Gal beta 1 leads to 3)GalNAc-protein alpha 2 leads to 6 sialyltransferase. The latter enzyme does not sialylate GalNAc or Gal beta 1 leads to 3GalNAc units but is capable of transferring sialic acid to C-6 of GalNAc in NeuAc alpha 2 leads to 3Gal beta 1 leads to 3GalNAc trisaccharide side chains, thereby dictating a strictly ordered sequence of sialylation of the Gal beta 1 leads to 3 GalNAc units in fetal calf liver.     

Water-soluble galactomannan from the seeds of Lotus corniculatus L.: structure and properties

Galactomannan, a water-soluble heteropolysaccharide, was isolated from the seed of Far-Eastern population of ground honeysuckle Lotus corniculatus L. (yield, 1.65%). Analysis of this galactomannan showed that is consists of D-mannose and D-galactose residues (molar ratio, 1.22:1). Its aqueous solutions were characterized by specific rotation [alpha]D = +84.10 and characteristic viscosity [eta] = 559 ml/g. Analysis of this heteropolysaccharide using chemical and enzymatic procedures, as well as IR- and 13C-NMR spectroscopy, showed that its main chain comprises 1,4-beta-D-mannopyranose residues, 95.5% of which are substituted at C-6 with single residues of alpha-D-galactopyranose.     

草苁蓉根、茎水溶性多糖BRT的结构特征

本文以长白山区珍贵野生药用植物草苁蓉为研究对象 .草苁蓉又名“不老草” ,具有滋补强壮、益寿延年之功及补肾壮阳、润肠止血之效 ,为国家三级重点保护植物[1] .近年的研究发现 ,草苁蓉醇提物不仅可以清除体内的游离基 ,而且还可以显著增强机体的免疫能力 ,同时对草苁蓉化学成分的研究也在逐步深入[2 ] ,但对于草苁蓉多糖的系统研究尚未见报道 .为了更全面地认识和利用草苁蓉这一珍贵的植物资源 ,同时也为探讨多糖的结构与功能的关系 ,本文对草苁蓉根、茎的水溶性多糖ＢＲＴ组分进行了结构测定方面的研究 .1　材料和方法1 1　材料为本研究…     

Carbohydrate binding properties of complex-type oligosaccharides on immobilized Datura stramonium lectin

The carbohydrate binding specificity of Datura stramonium agglutinin was studied by analyzing the behavior of a variety of complex-type oligosaccharides on a D. Stramonium agglutinin-Sepharose column. Oligosaccharides which contain Gal beta 1----4GlcNAc-beta 1----4(Gal beta 1----GlcNAc beta 1----2)Man units are retarded in the column so long as the pentasaccharide unit is not substituted by other sugars. Oligosaccharides which contain unsubstituted Gal beta 1----4GlcNAc beta 1----6(Gal beta 1----4GlcNAc beta 1----2)Man groups and those in which there is at least one Gal beta 1----4GlcNAc repeating unit present on an outer chain bind to the column and are eluted with buffer containing N-acetylglucosamine oligomers. Binding was not affected by the inner core portion of complex oligosaccharides nor by the presence of a bisecting N-acetylglucosamine residue. With these principles in mind, the column can be used as an effective tool for the analysis of complex-type, asparagine-linked sugar chains.     

Fractional Isolation and Study of the Structure of Galactomannan from Sophora (Styphnolobium japonicum) Seeds

Two fractions (1 and 2) of the galactomannan from seeds of sophora (Styphnolobium japonicum) were isolated using cold and hot aqueous extraction with a total yield of 12.88%. The two fractions differed by the ratio between mannose (Man) and galactose (Gal) residues (4.8 : 1 and 5.3 : 1, respectively) and molecular weight (1190 and 1400 kDa, respectively). Aqueous solutions of these fractions were optically active ([]_D = +4.80° and –3.36°, respectively) and highly viscous ([] 1028.8 and 1211.2 ml/g). ¹³C NMR spectra of both fractions were identical with respect to the number and positions of signals, which indicates that their primary structures were identical. Using chemical and spectroscopic (IR and NMR) methods, it was shown that the galactomannan has a main chain consisting of 1,4--D-mannopyranose, some residues of which (16 and 17% in fractions 1 and 2, respectively) are -galactosylated at the C-6 position. Frequencies of differently substituted mannobiose blocks in the chain, calculated for fraction 1 using NMR spectroscopic data, were 0.13 for the disubstitited blocks Gal(Man–Man)Gal, 0.37 for the sum of monosubstituted blocks Gal(Man–Man) and (Man–Man)Gal, and 0.50 for the unsubstituted block Man–Man.     

Chondroitin sulfate N-acetylgalactosaminyltransferase-1 (CSGalNAcT-1) involved in chondroitin sulfate initiation: Impact of sulfation on activity and specificity

Glycosaminoglycan (GAG) assembly initiates through the formation of a linkage tetrasaccharide region serving as a primer for both chondroitin sulfate (CS) and heparan sulfate (HS) chain polymerization. A possible role for sulfation of the linkage structure and of the constitutive disaccharide unit of CS chains in the regulation of CS-GAG chain synthesis has been suggested. To investigate this, we determined whether sulfate substitution of galactose (Gal) residues of the linkage region or of N-acetylgalactosamine (GalNAc) of the disaccharide unit influences activity and specificity of chondroitin sulfate N-acetylgalactosaminyltransferase-1 (CSGalNAcT-1), a key glycosyltransferase of CS biosynthesis. We synthesized a series of sulfated and unsulfated analogs of the linkage oligosaccharide and of the constitutive unit of CS and tested these molecules as potential acceptor substrates for the recombinant human CSGalNAcT-1. We show here that sulfation at C4 or C6 of the Gal residues markedly influences CSGalNAcT-1 initiation activity and catalytic efficiency. Kinetic analysis indicates that CSGalNAcT-1 exhibited 3.6-, 1.6-, and 2.2-fold higher enzymatic efficiency due to lower K(m) values toward monosulfated trisaccharides substituted at C4 or C6 position of Gal1, and at C6 of Gal2, respectively, compared with the unsulfated oligosaccharide. This highlights the critical influence of Gal substitution on both CSGalNAcT-1 activity and specifity. No GalNAcT activity was detected toward sulfated and unsulfated analogs of the CS constitutive disaccharide (GlcA-β1,3-GalNAc), indicating that CSGalNAcT-1 was involved in initiation but not in elongation of CS chains. Our results strongly suggest that sulfation of the linkage region acts as a regulatory signal in CS chain initiation.     

Polysaccharides from the seeds of Senna multijuga

The seeds of Senna multijuga were extracted with water or 1% acetic acid and treated with ethanol, resulting in two insoluble fractions. After purification, the major one (FIA, 23%) was shown to be a galactomannan (Man:Gal 2.3:1;[] = + 54.6;[η]=1340mlg⁻¹). It consists of a main chain of (1 → 4)-linked β-d-mannopyranosyl residues substituted at 06 by single-unit -d-galactopyranosyl side chains. The second fraction (FIB, 2.5%) was an O-acetyl-glucuronoarabinoxylan from the seed coats (O-acetyl 8.3 mol%; glucuronic acid 11.7%, Xyl:Ara ratio 20:1), which showed a predominance of 4-O-substituted Xylp units (84.4%), branched at 03 with non-reducing end units of Xylp, Araf and glucuronic acid. The O-acetyl positions in d-xylosyl units are at 02 (4.8%), 03 (4.4%) and 02,3 (0.9%). The ratio between 03 and 02 determined by ¹³C-nuclear magnetic resonance spectroscopy is 1.5:1.     

Structural characterization of the glycan part of glycoconjugate LbGp2 from Lycium barbarum L

A glycoconjugate with pronounced immunoactivity, designated as LbGp2, was isolated from the fruit of Lycium barbarum L. and purified to homogeneity by gel-filtration. Its carbohydrate content is up to 90.71% composed of Ara, Gal and amino acids. The molecular weight is 68.2 kDa as determined by size exclusive chromatography (SEC). The complete structure of the repeat unit of the glycan of LbGp2 was elucidated based on glycosidic linkage analysis, total acid hydrolysis, partial acid hydrolysis, 1H and 13C NMR spectroscopy. According to the experiments, the glycan possesses a backbone consisting of (1-->6)-beta-galactosyl residues, about fifty percent of which are substituted at C-3 by galactosyl or arabinosyl groups and the major nonreducing end being made of Ara (1 -->.     

Structural studies on N-acetylmannosaminuronic acid-containing and glucuronic acid-containing teichuronic acids in the cell wall of Bacillus megaterium AHU 1375

Structural studies were carried out on two kinds of teichuronic acid-glycopeptide complexes (designated as TU-GP-I and TU-GP-II) isolated from lysozyme digest of N-acetylated cell walls of Bacillus megaterium AHU 1375 by ion-exchange chromatography and gel chromatography. TU-GP-I, accounting for about 25% of the cell walls, contained N-acetylmannosaminuronic acid, N-acetylglucosamine, glucose, galactose, glycerol, and phosphorus in an approximate molar ratio of 1:1:2:1:0.5:0.5, together with small amounts of glycopeptide components. TU-GP-II, accounting for about 9% of the cell walls, contained glucuronic acid, glucose, and fucose in a molar ratio of about 2:1.5:1, together with small amounts of glycopeptide components. The results of analyses involving Smith degradation, chromium oxidation, methylation, acetolysis, and H-NMR measurement led to the conclusion that the polysaccharide chain of TU-GP-I comprised repeating units,----6) Glc(alpha 1----3)-ManNAcUA(beta 1----4)[Gal(alpha 1----3)][Glc(beta 1----6)]GlcNAc(beta 1----. About half of the repeating units were substituted by glycerophosphoryl residues at C-6 of the beta-glucosyl residues linked to the N-acetylglucosamine residues. By means of a similar procedure, the polysaccharide chain of TU-GP-II was shown to comprise repeating units,----4)GlcUA(alpha 1----3)GlcUA(alpha 1----3)Glc(alpha 1----3)Fuc(alpha 1----, of which about half were substituted by alpha-glucosyl residues at C-3 of the 4-substituted glucuronosyl residues.     

Structure-immunomodulating activity relationships of a pectic arabinogalactan from Vernonia kotschyana Sch. Bip. ex Walp

Structure and immunological characteristics of the pectic arabinogalactan Vk2a (previously reported as Vk100A2a) from the roots of Vernonia kotschyana Sch. Bip. ex Walp. were investigated after enzymatic digestion of the galacturonan moiety and the side chains of the rhamnogalacturonan structure of Vk2a. endo-alpha-D-(1-->4)-Polygalacturonase digestion released the high molecular weight 'hairy region' (Vk2a-HR) and oligogalacturonides. Vk2a-HR consisted of GalA (4-linked) and Rha (2- or 2,4-linked) in a 1:1 ratio, with 60% of Rha branched at C-4. The Rha located in the rhamnogalacturonan core was branched randomly by Gal units. Vk2a-HR was rich in neutral sugars such as Araf 5- (12.2%) and 3,5-substituted (12.8%) and terminally- (14.1%) linked and Gal 4- (13.0%), 3- (0.9%), 6- (2.2%) and 3,6- (1.1%) substituted. Arabinans with chain lengths up to 11 units were identified. Araf residues were attached to C-3 of alpha-L-(1-->5)-Araf chains and to C-4 of Gal residues. Single Gal units and chains of beta-D-(1-->6)-linked galacto di- to penta-saccharides were attached to a beta-D-(1-->3)-galactan core. All the enzyme resistant fractions expressed potent complement fixation and induction of B-cell mitogenic activity, and the present study indicates that there may be several and possibly structurally different active sites involved in the bioactivity of Vk2a. The bioactive sites may be located both in the more peripheral parts of the molecule but also in the inner core of the 'hairy region' or in larger enzyme-resistant chains.     

A coupled assay for UDP-GlcNAc:Gal beta 1-3GalNAc-R beta 1,6-N-acetylglucosaminyltransferase (GlcNAc to GalNAc).

UDP-GlcNAc:Gal beta 1-3GalNAc-R beta 1,6-N-acetylglucosaminyltransferase (GlcNAc to GalNAc) (i.e., core 2 GlcNAc-T) is a developmentally regulated enzyme of the O-linked oligosaccharide biosynthesis pathway. We have developed a coupled-enzyme assay for core 2 GlcNAc-T that is approximately 100 times more sensitive than the standard assay using UDP-[3H]GlcNAc as a sugar donor. Core 2 GlcNAc-T reactions were performed using unlabeled UDP-GlcNAc donor and Gal beta 1-3GalNAc alpha-paranitrophenyl (pNp) as acceptor. The product, Gal beta 1-3(GlcNAc beta 1-6)GalNAc alpha-pNp was then further reacted with purified bovine beta 1-4Gal-T and UDP-[3H]Gal to produce Gal beta 1-3([3H]Gal beta 1-4GlcNAc beta 1-6) GalNAc alpha-pNp, which was separated on an Ultrahydrogel HPLC column. Approximately 10% of the available GlcNAc-terminating acceptor was substituted in the Gal-T reaction, allowing 1 pmol of product to be readily detected. The increased sensitivity of the coupled assay should facilitate studies of core 2 GlcNAc-T activity where material is limiting or specific activity is low.     

Galactomannan from ambiguous Crazyweed (Oxytropis ambigua (Pall) DC)

A galactomannan with a molecular weight of 735 kDa was first isolated and purified from seeds of ambiguous crazyweed Oxytropis ambigua (Pall) DC. (family Leguminosae) with a yield of 3.6%. Its aqueous solutions displayed an optical activity ([alpha]D = 73.32 degrees) and high viscosity ([eta] = 644 ml g-1). Chemical analysis and 13C-NMR spectroscopy revealed the presence in the heteropolysaccharide of D-mannopyranose and D-glucopyranose at a molar ratio of 1.39:1. The linear backbone of its macromolecule consists of 1.4-beta-D-mannopyranose residues. Single beta-D-galactose residues substitute 72% of mannoses to form branches.     

Structural studies on water-soluble arabinoxylans in rye grain using enzymatic hydrolysis

The major water-soluble arabinoxylan fraction from rye grain, containing 4-linked β- -xylopyranosyl residues of which about 43% were substituted solely at O-3 and 7% at both O-2 and O-3 with terminal - -arabinofuranosyl units, was hydrolysed to different extents using semi-purified xylanase from Trichoderma reesei. Products were fractionated on Biogel P-2 and structurally elucidated by sugar, methylation and high-field ¹H-NMR analysis. Moderate hydrolysis released arabinose, xylose, xylobiose, xylotriose and xylotetraose together with xylo-oligosaccharides (DP ≥ 4) in which one or more of the residues were substituted at O-3 with a terminal arabinose unit. The xylose residues substituted with arabinose units at both O-2 and O-3 became enriched in the remaining polymeric fraction. Extensive hydrolysis with the enzyme released arabinose, xylose and xylobiose as major products together with small amounts of two oligosaccharides and a polymeric fraction. One of the oligosaccharides was identified as xylotriose in which the non-reducing end was substituted at O-2 and O-3 with terminal arabinose units and the other as xylotetraose in which one of the interjacent residues was substituted with arabinose units in the same way. The polymeric fraction contained a main chain of 4-linked xylose residues in which 60–70% of the residues were substituted at both O-2 and O-3 with arabinose units.

The semi-purified enzyme contained xylanase and arabinosidase activities which rapidly degraded un- and mono-substituted xylose residues while the degradation of double-substituted xylose residues was much slower. The results show that the mono- and double-substituted xylose residues were present in different polymers or different regions of the same polymer.