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Molecular weight distribution of cellulose in primary cell walls

Investigations with regenerating protoplasts, suspension cultured cells and mesophyll of tobacco

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Abstract

The distribution pattern of the degree of polymerization (DP) of cellulose present in the cell walls of mesophyll- and suspension-cultured cells of tobacco was compared to that of newly synthesized 14C-labeled cellulose from regenerating tobacco protoplasts and suspension-cultured cells. The cellulose was nitrated, and, after fractionation according to differences in solubility in acetone/water, the DP pattern of labeled or unlabeled cellulose nitrate was determined by viscosity measurements. A low (DP<500) and high DP-fraction (DP>2500) of cellulose were predominant in the cell walls of protoplasts, suspension — cultured cells, and mesophyll cells. The average DP of the high molecular weight fraction of cellulose in the cell walls of mesophyll was higher (DP∼4,000) than in protoplasts or suspension — cultured cells (DP 2,500-3,000). In all cell walls tested, minor amounts of cellulose molecules with a broad spectrum of a medium DP were present. Pulse — chase experiments with either protoplasts or suspension —cultured cells showed that a large proportion of the low and medium DP-cellulose are a separate class of structural components of the cellulose network. The results are discussed in relation to the organization of cellulose in the primary cell wall.

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Abbreviations

DP:

degree of polymerisation

2,4-D:

2,4-dichlorophenoxyacetic acid

IAA:

indole-3-acetic acid

References

  • Alexander, W.J., Mitchell, F.L. (1949) Rapid measurement of cellulose viscosity in the nitration method. Anal. Chem. 21, 1497–1500

    Google Scholar 

  • Asamizu, T., Tanaka, K., Takebe, J., Nishi, A. (1977) Change in molecular size of cellulose during regeneration of cell wall on carrot protoplasts. Physiol. Plant. 40, 215–218

    Google Scholar 

  • Blaschek, W., Haaß, D., Koehler, H., Franz, G. (1981) Cell wall regeneration by Nicotiana tabacum protoplasts: chemical and biochemical aspects. Plant Sci. Lett. 22, 47–57

    Google Scholar 

  • Chanzy, H., Imada, K., Mollard, A., Verong, R., Barnoud, F. (1979) Chrystallographic aspects of sub-elementary cellulose fibrils occuring in the wall of rose cells cultured in vitro. Protoplasma 100, 303–316

    Google Scholar 

  • Colvin, J.R. (1980) The biosynthesis of cellulose. In: The biochemistry of plants, vol. 3: Carbohydrates: structure and function, pp. 543–570, Preiss, J., ed. Academic Press, London New York San Francisco

    Google Scholar 

  • Delmer, D.P. (1977) The biosynthesis of cellulose and other plant cell wall polysaccharides. Recent Adv. Phytochem. 11, 45–77

    Google Scholar 

  • Fowke, L.C., Gamborg, O.L. (1980) Applications of protoplasts to the study of plant cells. Int. Rev. Cytol. 68, 9–51

    Google Scholar 

  • Franz, G., Heiniger, U. (1981) Biosynthesis and metabolism: cellulose and non-cellulosic cell wall glucans. In: Enzyclopedia of plant physiology, vol. XIII B, pp. 47–67, Loewus, F.A., Tanner, W., eds. Springer, Berlin Heidelberg New York

    Google Scholar 

  • Herth, W., Meyer, Y. (1977) Ultrastructural and chemical analysis of the wall fibrils synthesized by tobacco mesophyll protoplasts. Biol. Cell. 30, 33–40

    Google Scholar 

  • Houwink, R.H. (1940) Zusammenhang zwischen viscosimetrisch und osmotisch bestimmten Polymerisationsgraden bei Hochpolymeren. J. Prakt. Chem. 265, 15–18

    Google Scholar 

  • Marx-Figini, M. (1961) Über die Abhängigkeit des Polymerisationsgrades und des Substitutionsgrades von den Nitrierbedingungen für Cellulosenitrate verschiedener Herkunft. Macromol. Chem. 50, 196–219

    Google Scholar 

  • Marx-Figini, M. (1962) Die viskosimetrische Molekulargewichtsbestimmung von Cellulosen und Cellulosenitraten unter Standardbedingungen. Macromol. Chem. 54, 107–118

    Google Scholar 

  • Marx-Figini, M. (1966) Comparison of the biosynthesis of cellulose in vitro and in vivo in cotton balls. Nature (London) 210, 754–755

    Google Scholar 

  • Marx-Figini, M. (1967) Die Kinetik der Biosynthese der Cellulose in den höheren Pflanzen. J. Polym. Sci. Part C 16, 1947–1956

    Google Scholar 

  • Marx-Figini, M. (1969) Untersuchungen zur Biosynthese der Cellulose in der Alge Valonia. Biochim. Biophys. Acta 177, 27–34

    PubMed  Google Scholar 

  • Marx-Figini, M. (1976) Comparative study on the kinetics of cell wall and bacterial cellulose biosynthesis and its structural aspects. Appl. Polym. Symp. 28, 637–643

    Google Scholar 

  • Marx-Figini, M., Schulz, G.V. (1966) Über die Kinetik und den Mechanismus der Biosynthese der Cellulose in den höheren Pflanzen (nach Versuchen an den Samenhaaren der Baumwolle). Biochim. Biophys. Acta 112, 81–101

    PubMed  Google Scholar 

  • Merz, W. (1968) Automatische Schnellmethode zur Stickstoffbestimmung. Z. Anal. Chem. 237, 272–279

    Google Scholar 

  • Murashige, T., Skoog, F. (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15, 473–497

    Google Scholar 

  • Nagata, T., Takebe, I. (1971) Plating of isolated tobacco mesophyll protoplasts on agar medium. Planta 99, 12–20

    Google Scholar 

  • Palma, A., Büldt, G., Jovanovié, S.M. (1976) Absolutes Molekulargewicht der nativen Cellulose der Alge Valonia. Macromol. Chem. 177, 1063–1072

    Google Scholar 

  • Preston, R.D. (1974) The physical biology of plant cell walls, pp. 44–49, pp. 383–456. Chapman and Hall, London

    Google Scholar 

  • Robinson, D.G. (1977) Plant cell wall synthesis. Adv. Bot. Res. 89–151

  • Schulz, G.V., Marx, M. (1954) Über Molekulargewicht und Molekulargewichtsverteilungen nativer Cellulosen. Macromol. Chem. 14, 52–95

    Google Scholar 

  • Spencer, F.S., Maclachlan, G.A. (1972) Changes in molecular weight of cellulose in the pea epicotyl during growth. Plant Physiol. 49, 58–63

    Google Scholar 

  • Svenson, H.A. (1963) Intrinsic viscosity and its conversion to molecular weight. Methods Carbohydr. Chem. 3, 84–91

    Google Scholar 

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Authors and Affiliations

  1. Fakultät für Chemie und Pharmazie der Universität, Universitätsstrasse 31, D-8400, Regensburg, Germany

    W. Blaschek, H. Koehler, U. Semler & G. Franz

Authors
  1. W. Blaschek
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  2. H. Koehler
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  3. U. Semler
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  4. G. Franz
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Blaschek, W., Koehler, H., Semler, U. et al. Molecular weight distribution of cellulose in primary cell walls. Planta 154, 550–555 (1982). https://doi.org/10.1007/BF00402999

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  • DOI: https://doi.org/10.1007/BF00402999

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