Summary
The origin of a cell wall was an event of fundamental importance in the evolution of plants. In the green algae, cell walls apparently had independent origins in at least three lines of evolution. In this paper, the components of the cell wall were determined and compared in four filamentous green algae representing the charophycean, chlorophycean and ulvacean evolutionary lines. The walls of all four have hydroxyproline-containing proteins which separate into five or six bands upon SDS gel electrophoresis. Variation does exist, with the charophyte possessing fast moving electrophoretic bands and high hydroxyproline content, the chlorophytes having intermediate movement of bands and lower hydroxyproline content, and the ulvacean representative possessing slow moving bands and a very low, if not questionable, hydroxyproline and saccharide content. Qualitative and quantitative estimates of wall proteins and sugars have been determined and compared. A hypothetical scheme of cell wall evolution based on these data, those of previous analyses, and recent phylogenetic schemes is presented. Although sound conclusions cannot be made until more information is available, the scheme might help to emphasize the areas most in need of additional research.
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References
Albersheim, P. (1976). The Primary Cell Wall. In: Plant biochemistry, J. Bonner, ed., pp. 226–274. New York: Academic Press
Atkinson, A.W., Gunning, B.E.S., John, P.C.L. (1972). Planta107, 1–32
Catt, J.W., Hills, G.J., Roberts, K. (1976). Planta131, 165–171
Deason, T.R., Schnepf, E. (1977). J. Phycol.13, 218–224
Gooday, G.W. (1971). J. Exptl. Bot.22, 959–971
Gotelli, I., Cleland, R. (1968). Am. J. Bot.55(8, 907–914
Herth, W., Kuppel, A., Schnepf, E. (1977). J. Cell Biol.73, 311–321
Horne, R.W., Davies, D.R., Norton, K., Gurney-Smith, M. (1971). Nature232, 1193–1195
Jensen, W.A. (1962). Botanical histochemistry. pp. 1–408. San Francisco: W.H. Freeman
Keleti, G., Lederer, W.H. (1974). Handbook of micromethods for biological sciences. pp. 36–49. New York: Van Nostrand, Reinhold
Keyser, J.W. (1964). Anal. Biochem.9, 249
Kuo-shii, J., Barber, G.A. (1975). Phytochem.14, 2459–2461
Lamporte, D.T.A., Miller, D.H. (1974). Plant Physiol.48, 454–455
Leach, A.A. (1960). Biochem. J.74, 70–71
Lewin, R.A. (1958). J. Gen. Microbiol.19, 87–90
Lowry, O.H., Rosebrough, N.J., Farr, A.L., Randall, R.J. (1951). J. Biol. Chem.193, 265–275
Manton, I., Parke, M.J. (1960). J. Mar. Biol. Ass, U. K.39, 275–298
Manton, I., Parke, M.J. (1965). J. Mar. Biol. Ass. U. K.45, 743–754
Matile, Ph. (1975). The lytic compartment of plant cells. pp. 1–10. Berlin-Heidelberg-New York: Springer
Mattox, K.R., Stewart, K.D. (1973). Can. J. Bot.51(7), 1425–1430
Mattox, K.R., Stewart, K.D. (1977). Am. J. Bot.64, 931–45
Miller, D.H. (1978). J. Phycol.14, 189–194
Miller, D.H., Lamporte, D.T.A., Miller, H. (1972). Science176, 918–920
Northcote, D.H., Goulding, K.J., Horne, R.W. (1958). Biochem. J.70, 391–397
Percival, E., McDowell, R.H. (1967). Chemistry and enzymology of marine algal polysaccharides. pp. 1–219. London and New York: Academic Press
Preston, R.O. (1975). The physical biology of plant cell walls. pp. 32–276. London: Chapman and Hall
Roberts, K. (1974). Phil. Trans. Roy. Soc. Lond. Ser. B268, 129–146
Spiro, R.G. (1966). Methods in enzymology. Vol. 8. Colowyck, S. and Kaplan, O., eds., pp. 1–50. New York: Academic Press
Stewart, K.D., Mattox, K.R. (1975). Bot. Rev.41, 104–135
Stewart, K.D., Mattox, K.R. (1978). Biosystems10, 145–152
Swain, T. (1972). Biochemical evolution in plants. In: Molecular evolution II, biochemical evolution and the origin of life, E. Schoffeniels, ed., pp. 283–289. North Holland: North Holland
Undergraff, D.M. (1969). Anal. Biochem.32, 420–424
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This work was supported by National Science Foundation Grant DEB 78-03554.
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Domozych, D.S., Stewart, K.D. & Mattox, K.R. The comparative aspects of cell wall chemistry in the green algae (chlorophyta). J Mol Evol 15, 1–12 (1980). https://doi.org/10.1007/BF01732578
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DOI: https://doi.org/10.1007/BF01732578