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1

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Enzymic activities and galactomannan mobilisation in germinating seeds of fenugreek (Trigonella fœnum-graecum L. Leguminosae) (1973)

Grant Reid, J. S. ; Meier, Hans

Springer

Planta 112 (1973), S. 301-308

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ISSN: 1432-2048

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The activities of α-galactosidase, β-mannosidase and α-mannosidase were determined in extracts from the endosperm and from the embryo of fenugreek seeds at different stages of germination. Endosperm homogenates contained little or no activity of the above enzymes in the early stages of germination, before the reserve galactomannan began to be mobilised. The onset of galactomannan breakdown coincided with the appearance of α-galactosidase and β-mannosidase activities, which increased throughout the period of galactomannan degradation and then remained constant. A similar rise in α-galactosidase and β-mannosidase activities occurred during galactomannan breakdown in dry-isolated endosperms incubated under germination conditions. The increase could be suppressed by metabolic inhibitors which also inhibit galactomannan breakdown. Embryo homogenates contained high α-galactosidase, high α-mannosidase and some β-mannosidase activity at all stages of germination. No “oligomannosyl β-1,4 phosphorylase” activity could be detected either in the endosperm or in the embryo. It is concluded that the galactomannan of fenugreek is broken down by a series of hydrolases secreted by the aleurone layer of the endosperm. They include α-galactosidase, β-mannosidase and probably also endo-β-mannanase.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00390303

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A dual rôle for the endosperm and its galactomannan reserves in the germinative physiology of fenugreek (Trigonella foenum-graecum L.), an endospermic leguminous seed (1979)

Grant Reid, J. S. ; Derek Bewley, J.

Springer

Planta 147 (1979), S. 145-150

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ISSN: 1432-2048

Keywords: Endosperm ; Galactomannan ; Germination (seeds) ; Storage polysaccharide ; Trigonella ; Water potential

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Some 30% of the reserve material in the fenugreek seed is galactomannan localised in the endosperm; the remainder is mainly protein and lipid in the cotyledons of the embryo. The importance of galactomannan to the germinative physiology of fenugreek has been investigated by comparing intact and endosperm-free seeds. From a purely nutritional point of view the galactomannan's rôle is not qualitatively different from that of the food reserves in the embryo. Nevertheless, due to its spatial location and its hydrophilic properties, the galactomannan is the molecular basis of a mechanism whereby the endosperm imbibes a large quantity of water during seed hydration and is able to “buffer” the germinating embryo against desiccation during subsequent periods of drought-stress. The galactomannan is clearly a dual-purpose polysaccharide, regulating water-balance during germination and serving as a substrate reserve for the developing seedling following germination. The relative importance of these two rôles is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00389515

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3

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Mobilisation of the major stored reserves in the embryo of fenugreek (Trigonella foenum-graecum L., Leguminosae), and correlated enzyme activities (1981)

Leung, D. W. M. ; Bewley, J. D. ; Reid, J. S. G.

Springer

Planta 153 (1981), S. 95-100

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ISSN: 1432-2048

Keywords: Endosperm (galactomannan) ; Germination (seeds) ; Lipid ; Phytate ; Storage proteins ; Trigonella

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Changes in total nitrogen, soluble amino nitrogen, lipid and phytate contents, and in the activities of proteinase (pH 7.0), isocitrate lyase and phytase were followed in the endosperm, cotyledons, and axis during germination of fenugreek seeds and subsequent growth of the seedlings. The endosperm is comprised largely of cell-wall galactomannans: the majority of the seed total nitrogen, lipid and phytate (5%, 8%, 0.44% of seed dry weight respectively) is localised within the cotyledons as stored reserves. Germination is completed after 10–14 h from the start of imbibition, but the major reserves are not mobilised during the first 24 h. Then the total nitrogen content of the cotyledons starts to decrease and that of the axis increases; there is a concomitant accumulation of soluble amino nitrogen in both cotyledons and axis. An increase in proteinase activity in the cotyledons correlates well with the depletion of total nitrogen therein. Depletion of lipid and phytate reserves in the different seed tissues constitutes a late event, occurring after 50 h from the start of imbibition, and is coincident with the final disintegration of the endosperm tissue. The depletion of phytate and stored lipids is accompanied by an increase in phytase and isocitrate lyase activity. It appears that the products of lipid hydrolysis are converted by gluconeogenesis to serve as the major source of sugars for the growing axis after the endosperm galactomannan has been completely mobilised.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00384089

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4

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Galactomannan formation and guanosine 5′-diphosphate-mannose: galactomannan mannosyltransferase in developing seeds of fenugreek (Trigonella foenum-graecum L., leguminosae) (1982)

Campbell, John McA. ; Reid, J. S. Grant

Springer

Planta 155 (1982), S. 105-111

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ISSN: 1432-2048

Keywords: Galactomannan ; Endosperm ; Polysaccharide (biosynthesis, storage) ; Mannosyltransferase ; Seed (development) ; Trigonella

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The time-course of galactomannan and stachyose (digalactosyl-sucrose) deposition in the fenugreek seed endosperm has been determined, and correlated with standard parameters of seed development. During, and only during, the period of galactomannan deposition, endosperm homogenates are capable of catalysing the transfer of labelled d-mannosyl residues from guanosine 5′-diphosphate d-[U-14C]mannose to a soluble polysaccharide product indistinguishable from galactomannan. The mannosyltransferase activity peaks twice, once at the beginning of galactomannan deposition, and again in the middle of the most rapid phase of galactomannan deposition. The enzyme in the later peak sediments with grossly particulate material (1,000 g pellet), whereas the earlier peak contains a considerable proportion of a particulate enzyme sedimenting at 100,000 g. These observations are discussed in the light of existing information on the ultrastructural aspects of galactomannan deposition. The mannosyltransferase is clearly involved in galactomannan formation in vivo, but the status of an accompanying galactosyltransferase is less clear.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392539

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5

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Control of mannose/galactose ratio during galactomannan formation in developing legume seeds (1992)

Edwards, Mary ; Scott, Catherine ; Gidley, Michael J. ; [et al.]

Springer

Planta 187 (1992), S. 67-74

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ISSN: 1432-2048

Keywords: Alpha galactosidase ; Cell wall storage polysaccharide ; Cyamopsis ; Galactomannan (biosynthesis) ; Senna ; Trigonella

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Galactomannan deposition was investigated in developing endosperms of three leguminous species representative of taxonomic groups which have galactomannans with high, medium and low galactose content. These were fenugreek (Trigonella foenum-graecum L.; mannose/galactose (Man/Gal) = 1.1), guar (Cyamopsis tetragonoloba (L.) Taub.; Man/Gal = 1.6) and Senna occidentalis (L.) Link. (Man/Gal = 3.3), respectively. Endosperms were analysed at different stages of seed development for galactomannan content and the levels, in cell-free extracts, of a mannosyltransferase and a galactosyltransferase which have been shown to catalyse galactomannan biosynthesis in vitro (M. Edwards et al., 1989, Planta 178, 41–51). There was a close correlation in each case between the levels of the biosynthetic mannosyl- and galactosyltransferases and the deposition of galactomannan. The relative in vitro activities of the mannosyl- and galactosyltransferases in fenugreek and guar were similar, and almost constant throughout the period of galactomannan deposition. In Senna the ratio mannosyltransferase/galactosyltransferase was always higher than in the other two species, and it increased substantially throughout the period of galactomannan deposition. In fenugreek and guar the galactomannans present in the endosperms of seeds at different stages of development had the Man/Gal ratios characteristic of the mature seeds. By contrast the galactomannan present in Senna endosperms at the earliest stages of deposition had a Man/Gal ratio of about 2.3. During late deposition this ratio increased rapidly, stabilising at about 3.3, the ratio characteristic of the mature seed. The levels of α-galactosidase in the developing endosperms of fenugreek and guar were low and remained fairly constant throughout the deposition of the galactomannan. In Senna, α-galactosidase activity in the endosperm was low during early galactomannan deposition, but increased subsequently, peaking during late galactomannan deposition. The developmental patterns of the α-galactosidase activity and of the increase in Man/Gal ratio of the Senna galactomannan were closely similar, indicating a cause-and-effect relationship. The endosperm α-galactosidase activity in Senna was capable, in vitro, of removing galactose from guar galactomannan without prior depolymerisation of the molecule. In fenugreek and in guar the genetic control of the Man/Gal ratio in galactomannan is not the result of a post-depositional modification, and must reside in the biosynthetic process. In Senna, the Man/Gal ratio of the primary biosynthetic galactomannan product is controlled by the biosynthetic process. Yet the final Man/Gal ratio of the galactomannan in the mature seed is, to an appreciable extent, the result of galactose removal from the primary biosynthetic product by an α-galactosidase activity which is present in the endosperm during late galactomannan deposition.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00201625

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6

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A xyloglucan-oligosaccharide-specific α-d-xylosidase or exo-oligoxyloglucan-α-xylohydrolase from germinated nasturtium (Tropaeolum majus L.) seeds (1991)

Fanutti, Cristina ; Gidley, Michael J. ; Reid, J. S. Grant

Springer

Planta 184 (1991), S. 137-147

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ISSN: 1432-2048

Keywords: Cell wall ; Endo-(1→4)-β-d-glucanase (xyloglucan-specific) ; Storage polysaccharide (seed) ; Tropaeolum (xyloglucan mobilisation) ; Xyloglucan — α-Xylosidase

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The α-xylosidase which is involved in the postgerminative mobilisation of xyloglucan in nasturtium seed cotyledons has now been purified to apparent homogeneity by a facile procedure involving lectin affinity chromatography. The purified enzyme, a glycoprotein, moved as a single band (apparent molecular weight 85000) on sodium dodecyl sulphate-gel electrophoresis, whilst isoelectric focusing gave a number of enzymatically active protein bands spanning the range pI = 5.0 to 7.1 (maximum activity at pI = 6.1). The enzyme did not hydrolyse the simple α-xylosides p-nitrophenyl-α-d-xylopyranoside and woprimeverose (α-d-Xyl(1→6)-d-Glc), or polymeric tamarind-seed xyloglucan. It released xylose from a complex mixture of oligosaccharides produced by exhaustive hydrolysis of tamarind seed xyloglucan using the xyloglucan-specific endo-(1→4)-β-d-glucanase from germinated nasturtium seeds (M. Edwards et al. 1986, J. Biol. Chem., 261. 9489–9494). The three xyloglucan oligosaccharides of lowest molecular size were purified from this mixture and were shown by 1H-nuclear magnetic resonance (1H-NMR) and enzymatic analysis to have the structures:

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00208247

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7

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Enzyme specificity in galactomannan biosynthesis (1995)

Reid, J. S. Grant ; Edwards, Mary ; Gidley, Michael J. ; [et al.]

Springer

Planta 195 (1995), S. 489-495

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ISSN: 1432-2048

Keywords: Biosynthesis (computer simulation) ; Cell wall (plant) ; Cyamopsis ; Galactomannan ; Senna ; Trigonella

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Membrane-bound enzymes from developing legume-seed endosperms catalyse galactomannan biosynthesis in vitro from GDP-mannose and UDP-galactose. A mannosyltransferase [mannan synthase] catalyses the extension of the linear (1→4)-β-linked d-mannan backbone towards the non-reducing end. A specific α-galactosyltransferase brings about the galactosyl-substitution of the backbone by catalysing the transfer of a (1→6)-α-d-galactosyl residue to an acceptor mannosyl residue at or close to the non-reducing terminus of the growing backbone. Labelled galactomannans with a range of mannose/galactose (Man/Gal) ratios were formed in vitro from GDP-[14C]mannose and UDP-[14C]galactose using membrane-bound enzyme preparations from fenugreek (Trigonella foenum-graecum L.), guar (Cyamopsis tetragonoloba (L.) Taub.) and senna (Senna occidentalis (L.) Link.), species which in vivo, form galactomannans with Man/Gal ratios of 1.1, 1.6 and 3.3 respectively. The labelled galactomannans were fragmented using a structure-sensitive endo-(1→4)-β-d-mannanase and the quantitative fragmentation data were processed using a computer algorithm which simulated the above model for galactomannan biosynthesis on the basis of a second-order Markov chain process, and also the subsequent action of the endo-mannanase. For each galactomannan data-set processed, the algorithm generated a set of four conditional probabilities required by the Markov model. The need for a second-order Markov chain description indicated that the galactomannan subsite recognition sequence of the galactosyltransferase must encompass at least three backbone mannose residues, i.e. the site of substitution and the two preceding ones towards the reducing end of the growing galactomannan chain. Data-sets from the three plant species generated three distinctly different sets of probabilities, and hence galactose-substitution rules. For each species, the maximum degree of galactose-substitution consistent with these rules was closely similar to that observed for the primary product of galactomannan biosynthesis in vivo. The data provide insight into the mechanism of action and the spatial organisation of membrane-bound polysaccharide synthases.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00195705

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8

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Biosynthesis of (1,3)(1,4)-β-glucan and (1,3)-β-glucan in barley (Hordeum vulgare L.) (1995)

Becker, Martin ; Vincent, Christine ; Grant Reid, J. S.

Springer

Planta 195 (1995), S. 331-338

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ISSN: 1432-2048

Keywords: Cell wall biosynthesis ; Hemicellulosebiosynthesis ; Hordeum ; UDP-glucose: (1,3)(1,4)-β-glucan glucosyl transferase [(1, 3)(1, 4)-β-glucan synthase)] ; UDP-glucose: (1,3)-β-glucan glucosyl transferase [(1, 3)-β-glucan synthase]

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Mixed membrane preparations from the coleoptiles and first leaves of young barley (Hordeum vulgare L. cv. Triumph) plants catalysed the synthesis of 55% methanol-insoluble labelled material from UDP[U-14C]glucose, the main components of which were identified as (1,3)(1,4)-β- and (1,3)-β-D-glucans. The membrane preparations also catalysed the transformation of UDP-glucose into labelled low-molecular-weight products, mainly glucose (by phosphatase action), glucose-1-phosphate (by phosphodiesterase action) and glyco(phospho)lipids (by glycosyltransferase action). The formation of (1,3)(1,4)-β-glucans, (1,3)-β-glucans, and the other reactions competing for UDP-glucose, were monitored simultaneously and quantitatively by a novel procedure based on enzymatic analysis, thin-layer chromatography and digital autoradiography. Thus it was possible (i) to optimise conditions to obtain (1,3)(1,4)-β-glucan synthesis or (1,3)-β-glucan synthesis in isolation, and (ii) to study the influence of temperature, pH, cofactors, substrate concentration etc. on the (1,3)(1,4) and (1,3)-β-glucan synthesis reactions even when both occurred together. The synthesis of both β-glucans was optimal at 20°C. In Tris-HCl buffer, the pH optima for (1,3)(1,4)-β-glucan synthesis and (1,3)-β-glucan synthesis were pH 8.5 and pH 7.0, respectively. Both glucan-synthesis reactions required Mg2+: (1,3)-β-glucan synthesis was optimal at 2 mM, whereas (1,3)(1,4)-β-glucan synthesis continued to increase up to 200 mM Mg2+, when the ion was supplied as the sulphate. (1,3)-β-Glucan synthesis was Ca2+ dependent and this dependence could be abolished by proteinase treatment. The K m with respect to UDP-glucose was 1.5 mM for (1,3)-β-glucan synthesis and approximately 1 mM for (1,3)(1,4)-β-glucan synthesis. The (1,3)(1,4)-β-glucan formed in vitro had the same ratio of trisaccharide to tetrasaccharide structural blocks irrespective of the experimental conditions used during the synthesis: its enzymatic fragmentation pattern was indistinguishable from that of barley endosperm (1,3)(1,4)-β-glucan. This indicates either a single synthase enzyme, which is responsible for the formation of both linkage types, or two enzymes which are very tightly coupled functionally.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00202589

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9

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Biosynthesis of legume-seed galactomannans in vitro (1989)

Edwards, Mary ; Bulpin, Paul V. ; Dea, Iain C. M. ; [et al.]

Springer

Planta 178 (1989), S. 41-51

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ISSN: 1432-2048

Keywords: Cyamopsis ; Endosperm ; Galacto-mannan biosynthesis ; Galactosyltransferase ; Mannosyltransferase ; Polysaccharide biosynthesis ; Seed development ; Trigonella

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Particulate enzyme preparations were isolated from developing fenugreek (Trigonella foenum-graecum L.) and guar (Cyamopsis tetragonoloba [L.] Taub.) seed endosperms during the period of galactomannan deposition in vivo. These preparations catalysed the formation of polysacharide products from guanosine 5′-diphosphate (GDP)-mannose, from uridine 5′-diphosphate (UDP)-galactose and from mixtures of the two nucleotides. The products were analysed by solubility, by complete acid hydrolysis, and by selective enzymatic cleavage using pure enzymes of known specificity. With GDP-[U-14C]-d-mannose as substrate and a divalent metal cation (Mg+2, Mn+2, or Ca+2) a highly efficient transfer of labelled d-mannosyl residues was obtained to give a product identified as linear (1→4)-β-linked d-mannan. No transfer of galactosyl residues was obtained when GDP-[U-14C]-d-galactose was the only substrate, although very low and variable amounts of an unidentified product which released labelled glucose on acid hydrolysis were formed. In the presence of UDP-galactose, GDP-mannose and Mn+2 ions, products were formed which have been characterised as galactomanans — a linear (1→4)-β-d-mannan backbone carrying d-galactopyranosyl substituents linked (1→6)-α to mannose. The degree of galactose substitution of the d-mannan backbone was manipulated in vitro by varying GDP-mannose concentrations at constant (saturating) UDP-galactose levels. The transfer of d-galactosyl residues from UDP-galactose to galactomannan was absolutely dependent upon the simultaneous transfer of D-mannosyl residues from GDP-mannose. d-Mannan sequences pre-formed in situ using the mannosyltransferase in the absence of UDP-galactose could not become galactose-substituted in a subsequent incubation either with UDP-galactose alone or with UDP-galactose plus GDP-mannose A model for the interaction of GDP-mannose mannosyltransferase and UDP-galactose galactosyltransferase in galactomannan biosynthesis is proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392525

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10

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Purification and properties of a novel β-galactosidase or exo-(1 → 4)-β-d-galactanase from the cotyledons of germinated Lupinus angustifolius L. seeds (1994)

Buckeridge, Marcos S. ; Grant Reid, J. S.

Springer

Planta 192 (1994), S. 502-511

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ISSN: 1432-2048

Keywords: Galactan ; β-Galactosidase ; Exo-β-galactanase ; Lupinus ; Germination ; Reserve mobilisation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The main polysaccharide component of the thickened cell walls in the storage parenchyma of Lupinus angustifolius L. cotyledons is a linear (1 → 4)-β-linked d-galactan, which is mobilised after germination (L.A. Crawshaw and J.S.G Reid, 1984, Planta 160, 449–454). The isolation from the germinated cotyledons of a β-d-galactosidase or exo-(1 → 4)-β-d-galactanase with a high specificity for the lupin galactan is described. The enzyme, purified using diethylaminoethyl-cellulose, carboxymethyl-cellulose and affinity chromatography on lactose-agarose, gave two bands (major 60 kDa, minor 45 kDa) on sodium dodecyl sulphate-gel electrophoresis, and two similar bands on isoelectric focusing (major, pI 7.0, minor pI 6.7, both apparently possessing enzyme activity). The minor component cross-reacted with an antiserum raised against, and affinity-purified on, the major band. Both components had a common N-terminal sequence. The minor component was probably a degradation product of the major one. The enzyme had limited β-galactosidase action, catalysing the hydrolysis of p-nitrophenyl-β-d-galactopyranoside and (1→ 4)- and (1 → 6)-β-linked galactobioses. Lactose [β-d-galactopyranosyl-(1 → 4)-d-glucose] was hydrolysed only very slowly and methyl-β-d-galactopyranoside not at all. Lupin galactan was hydrolysed rapidly and extensively to galactose, whereas other cell-wall polysaccharides (xyloglucan and arabinogalactan) with terminal non-reducing β-d-galactopyranosyl residues were not substrates. A linear (1 → 4)-β-linked galactopentaose was hydrolysed efficiently to the tetraose plus galactose, but further sequential removals of galactose to give the tetraose and lower homologues occurred more slowly. Galactose, γ-galactonolactone and Cu+2 were inhibitory. No endo-β-d-galactanase activity was detected in lupin cotyledonary extracts, whereas exo-galactanase activity varied pari passu with galactan mobilisation. Exo-galactanase protein was detected, by Western immunoblotting of cotyledon extracts, just before the activity could be assayed and then increased and decreased in step with the enzyme activity. The exo-galactanase is clearly a key enzyme in galactan mobilisation and may be the sole activity involved in depolymerising the dominant (1 → 4)-β-galactan component of the cell wall.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00203588

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