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Kerry Hosmer Caffall 《Carbohydrate research》2009,344(14):1879-1900
Plant cell walls consist of carbohydrate, protein, and aromatic compounds and are essential to the proper growth and development of plants. The carbohydrate components make up ∼90% of the primary wall, and are critical to wall function. There is a diversity of polysaccharides that make up the wall and that are classified as one of three types: cellulose, hemicellulose, or pectin. The pectins, which are most abundant in the plant primary cell walls and the middle lamellae, are a class of molecules defined by the presence of galacturonic acid. The pectic polysaccharides include the galacturonans (homogalacturonan, substituted galacturonans, and RG-II) and rhamnogalacturonan-I. Galacturonans have a backbone that consists of α-1,4-linked galacturonic acid. The identification of glycosyltransferases involved in pectin synthesis is essential to the study of cell wall function in plant growth and development and for maximizing the value and use of plant polysaccharides in industry and human health. A detailed synopsis of the existing literature on pectin structure, function, and biosynthesis is presented. 相似文献
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S.J Angyal V.J Bender B.J Ralph 《Biochimica et Biophysica Acta (BBA)/General Subjects》1974,362(1):175-187
Cell walls of the Basidiomycete fungus Polyporus tumulosus (Cooke) were fractionated, and the polysaccharide content of the fractions investigated. The major constituents of the cell wall include four polysaccharides, chitin, a β-1, 3-glucan and the alkali soluble α-glucan and xylomannan.The glucan is highly dextrotatory with an [α]D21 of + 221° and gave on partial acid hydrolysis and acetolysis an homologous series of oligosaccharides. The disaccharide was shown to be nigerose 3-0-α-D-glucopyranosyl-D-glucose. Periodate oxidation and methylation studies provided supporting evidence that the polysaccharide is an essentially unbranched polymer of 1,3-linked glucose residues.The other alkali-soluble polysaccharide, a xylomannan, is a polymer of mannose and xylose in the approximate molar proportions of 1.2:1. It has an [α]D = + 56° and on partial acid hydrolysis and acetolysis gave an homologous series of 1,3-linked mannodextrins but no oligosaccharides containing xylose were obtained. An α-1,3-linked mannan was prepared from the xylomannan by degradation with mild acid or by degradation of the periodate-oxidased and reduced xylomannan. The structure therefore is visualised as having a backbone of 1,3-linked mannan, to which xylose residues are attached. Methylation studies showed that branching occurs at C-4 of the mannopyranose units; the presence of 2,3-di-o-methyl-d-xylose in the hydrolysate of the methylated polysaccharide indicated that some of the xylose residues are 1,4-linked. The possible structure of the fungal cell wall is discussed in the light of the results obtained. 相似文献
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Medium nutrients such as calcium, phosphorus, nitrogen and nitrate to ammonium ratio have significant influence on the growth, biosynthetic and biochemical characteristics of polysaccharides produced by Silene vulgaris (M.) G. cell culture. Cell growth and production of polysaccharides was limited by an absence of any of these components in the medium. Optimal growth of the callus and production of arabinogalactan were achieved at 1.5-4.5 microM calcium while the optimal production of pectin named silenan was observed at 3.0-4.5 microM. The phosphate contents in the medium in the range of 0.63-3.75 microM were favorable for callus growth. Production of silenan was maximal at 1.25-3.75 microM phosphate. Optimal growth of the callus was achieved at 30-90 microM nitrogen. Maximal production of silenan was observed at 60 microM nitrogen while the optimal production of arabinogalactan was at 90 microM nitrogen (at ratio of NH(4)(+):NO(3)(-) as 1:2). A presence both of nitrate and ammonium is needed for the silenan biosynthesis (the NH(4)(+):NO(3)(-) ratio as 1:1 and 1:2). Yields and volumetric production of arabinogalactan were maximal at deletion of ammonium from the nutrient medium (ratio 0:1). Absence of calcium or nitrogen in the medium leads to a decrease of the galacturonic acid residues in silenan. The galactose residues contents in arabinogalactan were decreased in the absence of nitrogen and calcium in the medium. 相似文献
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Regulation of cell wall biosynthesis 总被引:5,自引:0,他引:5
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Glycerolphosphate-containing cell wall polysaccharides from Streptococcus sanguis 总被引:3,自引:1,他引:3
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Six glycerolphosphate-containing tetraheteroglycans, a, b-1, b-2, b-3, b-4, and b-5, have been purified from the formamide extracts of Streptococcus sanguis by alcohol and acetone precipitations, Sephadex G-75, and diethylaminoethyl-cellulose column chromatography. The polysaccharides were judged as at least 95% pure by analytical disc gel electrophoresis and immune double diffusion against rabbit antiserum. They were shown to be cell wall polysaccharides, since they formed a single band of identity in immune double diffusion with partially purified polysaccharide extracted from a purified cell wall preparation of S. sanguis. The polysaccharides were composed of l-rhamnose, d-glucose, and N-acetyl d-glucosamine in a similar molar ratio, but varied in their glycerol and phosphate contents. They exhibited four different mobilities in polyacrylamide disc gel electrophoresis at pH 8.9. When they were treated with formamide at 170 C for 20 min, the faster moving polysaccharide(s) yielded polysaccharides with mobilities corresponding to the other slower moving polysaccharides. These results indicate that the polysaccharides originated from the same cell wall polysaccharide and were produced as a result of breakage in the phosphodiester bonds during the formamide extraction procedure. A preliminary structural study shows that the terminal reducing sugar is l-rhamnose and that the glycerol moiety is probably linked to the polysaccharide through a phosphodiester bond. 相似文献
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Plants need an enormous biosynthetic machinery to synthesize the complex polysaccharides that are present in the plant cell wall. The isolation, characterization and mapping of wall mutants, together with biochemical approaches, have led to significant advances in our understanding of both wall polysaccharide synthesis at a molecular level and the function of polysaccharides in plant growth and development. Moreover, potential regulation mechanisms and associated protein factors are emerging from recent data. 相似文献
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Plant Molecular Biology - Secondary cell wall not only provides rigidity and mechanical resistance to plants, but also has a large impact on plant growth and adaptation to environments.... 相似文献
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The bacterial cell wall is a complex three-dimensional structure that protects the cell from environmental stress and ensures its shape. The biosynthesis of its main component, the peptidoglycan, involves the coordination of activities of proteins present in the cytoplasm, the membrane, and the periplasm, some of which also interact with the bacterial cytoskeleton. The sheer complexity of the cell wall elongation process, which is the main focus of this review, has created a significant challenge for the study of the macromolecular interactions that regulate peptidoglycan biosynthesis. The availability of new structural and biochemical data on a number of components of peptidoglycan assembly machineries, including a complex between MreB and RodZ as well as structures of penicillin-binding proteins (PBPs) from a number of pathogenic species, now provide novel insight into the underpinnings of an intricate molecular machinery. 相似文献
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Polysaccharides such as starch, cellulose and other glucans, pectins, xylans, mannans, and fructans are present as major structural and storage materials in plants. These constituents may be degraded and modified by endogenous enzymes during plant growth and development. In plant pathogenesis by microorganisms, extracellular enzymes secreted by infected strains play a major role in plant tissue degradation and invasion of the host. Many of these polysaccharide-degrading enzymes are also produced by microorganisms widely used in industrial enzyme production. Most commerical enzyme preparations contain an array of secondary activities in addition to the one or two principal components which have standardized activities. In the processing of unpurified carbohydrate materials such as cereals, fruits, and tubers, these secondary enzyme activities offer major potential for improving process efficiency. Use of more defined combinations of industrial polysaccharases should allow final control of existing enzyme processes and should also lead to the development of novel enzymatic applications. 相似文献
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Polysaccharide compositions of cell walls were assessed by quantitative analyses of the component sugars. Cell walls were hydrolyzed in 2 n trifluoroacetic acid and the liberated sugars reduced to their respective alditols. The alditols were acetylated and the resulting alditol acetates separated by gas chromatography. Quantitative assay of the alditol acetates was accomplished by electronically integrating the detector output of the gas chromatograph. Myo-inositol, introduced into the sample prior to hydrolysis, served as an internal standard. 相似文献
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Changes in the polysaccharide composition of Phaseolus vulgaris, P. aureus, and Zea mays cell walls were studied during the first 28 days of seedling development using a gas chromatographic method for the analysis of neutral sugars. Acid hydrolysis of cell wall material from young tissues liberates rhamnose, fucose, arabinose, xylose, mannose, galactose, and glucose which collectively can account for as much as 70% of the dry weight of the wall. Mature walls in fully expanded tissues of these same plants contain less of these constituents (10%-20% of dry wt). Gross differences are observed between developmental patterns of the cell wall in the various parts of a seedling, such as root, stem, and leaf. The general patterns of wall polysaccharide composition change, however, are similar for analogous organs among the varieties of a species. Small but significant differences in the rates of change in sugar composition were detected between varieties of the same species which exhibited different growth patterns. The cell walls of species which are further removed phylogenetically exhibit even more dissimilar developmental patterns. The results demonstrate the dynamic nature of the cell wall during growth as well as the quantitative and qualitative exactness with which the biosynthesis of plant cell walls is regulated. 相似文献
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Majtán J Kogan G Kovácová E Bíliková K Simúth J 《Zeitschrift für Naturforschung. C, Journal of biosciences》2005,60(11-12):921-926
Carboxymethylated derivatives were prepared from the (1-->3)-beta-D-glucan isolated from the cell wall of baker's yeast Saccharomyces cerevisiae and from the chitin-glucan complex of the mycelium of the industrial filamentous fungus Aspergillus niger. The polysaccharides were applied to peritoneal mouse macrophages and after a 2-h incubation the release of TNF-alpha by the stimulated macrophages was measured using an enzyme-linked immunosorbent assay. As the third polysaccharide stimulant, a water-soluble derivative of chitin was assayed and the observed cytokine release was compared with the control experiment. In three concentrations of the polysaccharides applied, carboxymethyl glucan revealed a dramatic increase in the TNF-alpha release, while addition of carboxymethyl chitin-glucan resulted only in a moderate enhancement, and carboxymethyl chitin was inactive. The results indicate that fungal polysaccharides, especially (1-->3)-beta-D-glucan, are potent macrophage stimulators and activators of TNF-alpha release, which implies their potential application in antitumor therapy. 相似文献
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Secretion of cell wall polysaccharides in Vicia root hairs 总被引:1,自引:1,他引:1
D. Janine Sherrier Kathryn A. VandenBosch 《The Plant journal : for cell and molecular biology》1994,5(2):185-195
Root hairs of hairy winter vetch ( Vicia villosa Roth) synthesize and secrete abundant cell wall matrix polysaccharides, making this an excellent system for the study of secretion during tip growth. Roots with newly formed hairs were preserved by cryofixation and freeze substitution. Cryofixed root hairs showed excellent structural and antigenic preservation. Ultrastructural analyses showed numerous vesicles near the tip and a concentration of Golgi bodies in the subapical region of the hair. The distribution of polygalacturonic acid and xyloglucan in the endomembrane system and cell wall were revealed by immunolabeling, using previously characterized monoclonal antibodies. De-esterified polygalacturonic acid was present on the external surface of the cell wall, but was not detected within the cell, although chemical de-esterification revealed abundant antigen in Golgi bodies and secretory vesicles. Methyl-esterified polygalacturonic acid epitopes were detected within the medial and trans cisternae of Golgi bodies, in secretory vesicles, and throughout the wall, indicating that pectin is secreted in a neutral form and may then be de-esterified in muro . Xyloglucan was also detected within the trans cisternae of Golgi bodies, secretory vesicles and throughout the cell wall. Double labeling experiments demonstrated that both polysaccharides occur simultaneously in the same Golgi bodies, and that secretory vesicles containing both polygalacturonic acid and xyloglucan deliver the polysaccharides to the cell wall at the growing tip. 相似文献
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Soybean meal, soybean water unextractable solids (WUS) and extracts thereof, which contain particular cell wall polysaccharides, were incubated with a number of cell wall degrading enzymes. The intact cell wall polysaccharides in the meal and WUS were hardly degradable, while the extracts from WUS were well degraded. The arabinogalactan side chains in the pectin-rich ChSS fraction (Chelating agent Soluble Solids) could to a large extent be removed from the pectins by the combined action of endo-galactanase, exo-galactanase, endo-arabinanase and arabinofuranosidase B. The remaining polymer was isolated and represented 30% of the polysaccharides in the ChSS fraction. Determination of the sugar composition showed these polymers to be very highly substituted pectic structures. It still contained 5 mol% of arabinose and 12 mol% of galactose, representing 7% and 12%, respectively, of the arabinose and galactose present in the ChSS fraction before degradation. Further, the presence of uronic acid (50 mol%) and of xylose (18 mol%) indicated the presence of a xylogalacturonan. 相似文献
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Ahrazem O Prieto A Leal JA Inmaculada Giménez-Abián M Jiménez-Barbero J Bernabé M 《Carbohydrate research》2007,342(8):1138-1143
The alkali-extractable water-soluble polysaccharides F1SS isolated from the cell wall of four species of Discula destructiva have been studied by methylation analysis and NMR spectroscopy, and their idealized structures established as [structure: see text] where n approximately 2 for strains CBS 109771 and CBS 133.91, n approximately 1 for CBS 132.91, and it has an intermediate value in strain CBS 130.91. The mannan core was obtained by mild hydrolysis of the F1SS polysaccharide and its structure consisted of a skeleton of alpha-(1-->6)-mannopyranan, with around one out of eleven residues substituted at C-2 by short chains (one to six units) of 2-substituted mannopyranoses. 相似文献
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A katanin-like protein regulates normal cell wall biosynthesis and cell elongation 总被引:14,自引:0,他引:14
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Fibers are one of the mechanical tissues that provide structural support to the plant body. To understand how the normal mechanical strength of fibers is regulated, we isolated an Arabidopsis fragile fiber (fra2) mutant defective in the mechanical strength of interfascicular fibers in the inflorescence stems. Anatomical and chemical analyses showed that the fra2 mutation caused a reduction in fiber cell length and wall thickness, a decrease in cellulose and hemicellulose contents, and an increase in lignin condensation, indicating that the fragile fiber phenotype of fra2 is a result of alterations in fiber cell elongation and cell wall biosynthesis. In addition to the effects on fibers, the fra2 mutation resulted in a remarkable reduction in cell length and an increase in cell width in all organs, which led to a global alteration in plant morphology. The FRA2 gene was shown to encode a protein with high similarity to katanin (hence FRA2 was renamed AtKTN1), a protein shown to be involved in regulating microtubule disassembly by severing microtubules. Consistent with the putative function of AtKTN1 as a microtubule-severing protein, immunolocalization demonstrated that the fra2 mutation caused delays in the disappearance of perinuclear microtubule array and in the establishment of transverse cortical microtubule array in interphase and elongating cells. Together, these results suggest that AtKTN1, a katanin-like protein, is essential not only for normal cell wall biosynthesis and cell elongation in fiber cells but also for cell expansion in all organs. 相似文献
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Cells of proso millet (Panicum miliaceum L. cv Abarr) in liquid culture and leaves of maize seedlings (Zea mays L. cv LH51 × LH1131) readily incorporated d-[U-14C]glucose and l-[U-14C]arabinose into soluble and cell wall polymers. Radioactivity from arabinose accumulated selectively in polymers containing arabinose or xylose because a salvage pathway and C-4 epimerase yield both nucleotide-pentoses. On the other hand, radioactivity from glucose was found in all sugars and polymers. Pulse-chase experiments with proso millet cells in liquid culture demonstrated turnover of buffer soluble polymers within minutes and accumulation of radioactive polymers in the cell wall. In leaves of maize seedlings, radioactive polymers accumulated quickly and peaked 30 hours after the pulse then decreased slowly for the remaining time course. During further growth of the seedlings, radioactive polymers became more tenaciously bound in the cell wall. Sugars were constantly recycled from turnover of polysaccharides of the cell wall. Arabinose, hydrolyzed from glucuronoarabinoxylans, and glucose, hydrolyzed from mixed-linkage (1→3, 1→4)β-d-glucans, constituted most of the sugar participating in turnover. Arabinogalactans were a large portion of the buffer soluble (cytoplasmic) polymers of both proso millet cells and maize seedlings, and these polymers also exhibited turnover. Our results indicate that the primary cell wall is not simply a sink for various polysaccharide components, but rather a dynamic compartment exhibiting long-term reorganization by turnover and alteration of specific polymers during development. 相似文献