Summary
Quantitative determinations of the cell wall constituents (pectin, hemicellulose and α-cellulose) of growing Phaseolus aureus seedlings showed marked changes during early growth. The cell walls of the 2 to 4 days old seedlings were composed of approximately 30% α-cellulose, 50% hemicelluloses and 20% pectin. After four weeks the proportion of the different fractions had changed to approximately 60% α-cellulose, 30% hemicelluloses and 10% pectin. Quantitative sugar determinations on these polysaccharide fractions have shown that mainly the non-cellulosic fractions (hemicelluloses and pectin) underwent considerable changes in sugar composition during growth. The hemicelluloses contained non-cellulosic polysaccharides with a high glucose content, which were not starch. These were broken down in the cell walls during growth.
In a series of experiments in which 14C-glucose was injected into the hypocotyls of four days old Phaseolus aureus seedlings, the transport of radioactivity to the different plant organs and its incorporation into the cell wall polysaccharides of the bean stem were studied. The major part of the radioactivity was incorporated into the cell wall of the stem tissue. Minor amounts were transported to the roots and leaves. Of the cell wall polysaccharides of the stem, the hemicellulosic fraction showed a higher rate of incorporation of the 14C-glucose than the α-cellulose in the early stages of growth. With increasing age of the plant, radioactivity was transferred from the hemicellulosic fraction to the α-cellulose, suggesting turnover of polysaccharides in the growing cell wall.
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Literatur
Buchala, A. J., Wilkie, K. C. B.: Non-endospermic hemicellulosic β-glucans from cereals. Naturwissenschsften 57, 496–497 (1970).
Dever, J. E., Bandurski, R. S., Kivilan, A.: Partial chemical characterisation of corn root cell walls. Plant Physiol. 43, 50–56 (1968).
Fischer, F. G., Dörfel, H.: Die quantitative Bestimmung reduzierender Zucker auf Papierchromatogrammen. Hoppe-Seylers Z. physiol. Chem. 297, 164–178 (1954).
Franz, G., Meier, H.: Biosynthesis of cellulose: Studies on the glucosyl transfer from UDPG to various acceptors using particulate enzyme preparations from different higher plants. XI Intern. Botanical Congr. Abstr. 62 (1969).
Fraser, C. G., Wilkie, K. C. B.: A hemicellulosic glucan from oat leaf. Phytochem. 10, 199–204 (1971).
Kalberer, F., Rutschmann, J.: Eine Schnellmethode zur Bestimmung von Tritium, Radiokohlenstoff und Radioschwefel in beliebigem organischem Probenmaterial mittels des Flüssigkeits-Scintillations-Zählers. Helv. chim. Acta 44, 1956–1966 (1961).
Katz, M., Ordin, L.: Metabolic turnover in cell wall constituents of Avena sativa coleoptile sections. Biochim. biophys. Acta (Amst.) 141, 118–125 (1967a).
——: A cell wall polysaccharide-hydrolyzing enzyme systems in Avena sativa coleoptiles. Biochim. biophys. Acta (Amst.) 141, 126–134 (1967b).
MacLachlan, G. A., Duda, C. T.: Changes in concentration of polymeric components in excised pea-epicotyl tissue during growth. Biochim. biophys. Acta (Amst.) 97, 288–299 (1965).
Matchett, W. H., Nance, J. F.: Cell wall breakdown and growth in pea seedling stems Amer. J. Bot. 49, 311–319 (1962).
Nevins, D. J.: Relation of glycosidases to bean hypocotyl growth. Plant Physiol. 46, 458–462 (1970).
— English, P. D., Albersheim, P.: Changes in cell wall polysaccharides associated with growth. Plant Physiol. 43, 914–922 (1968).
Ordin, L., Hall, M. A.: Cellulose synthesis in higher plants from UDP-glucose. Plant Physiol. 43, 473–476 (1968).
Péaud-Lenoël, C., Axelos, M.: Structural features of the β-glucans enzymatically synthesized from UDPG by wheat seedlings. FEBS Letters 8, 224–228 (1970).
Ray, P.: Sugar composition of oat coleptile cell walls. Biochem. J. 89, 144–150 (1963).
Reid, J. S. G., Wilkie, K. C. B.: Total hemicelluloses from oat plants at different stages of growth. Phytochem. 8, 2059–2065 (1969).
Roberts, R. M., Butt, V. S.: Patterns of cellulose synthesis in maize root-tips. Exp. Cell. Res. 46, 495–510 (1967).
Saeman, J. F., Moore, W. E., Mitchell, R. L., Millett, M. A.: Techniques for the determination of pulp constituents by quantitative paper chromatography. TAPPI 38, 336 (1954).
Thornber, J. P., Northeote, D. H.: Changes in the chemical composition of a cambial cell during its differentiation into xylem and phloem tissue in trees. Biochem. J. 81, 449–464 (1961).
Villemez, C. L., Franz, G., Hassid, W. Z.: Biosynthesis of alkali insoluble polysaccharide from UDPG with particulate enzyme preparations from Phaseolus aureus. Plant Physiol. 42, 1219–1223 (1967).
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Franz, G. Polysaccharidmetabolismus in den Zellwänden wachsender Keimlinge von Phaseolus aureus . Planta 102, 334–347 (1972). https://doi.org/10.1007/BF00386618
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DOI: https://doi.org/10.1007/BF00386618