Abstract
The macromolecules of plants are distinguished from all other constituents by their high molecular weight. This may vary from 10000 to over 1000000, whereas in other plant metabolites the molecular weight is rarely above 1000. Chemically, macromolecules consist of long chains of small structural units or ‘building blocks’, linked covalently in a number of different ways. Chemical characterization in the first instance therefore depends on identifying these smaller units. Proteins, for example, are long chains of amino acids (up to twenty different ones) joined together through peptide (—CO—NH—) links. Polysaccharides are similarly derived from the union of simple sugar units, such as glucose, joined through ether (—O—) links. The nucleic acids, by contrast, are more complex and have three types of structural unit: purine and pyrimidine bases, pentose sugars and phosphate groups. The three main classes of macromolecules found in plants are thus proteins, polysaccharides and nucleic acids. However, mixed polymers are also known. such as the glycoproteins, which contain both sugars and amino acids in covalent linkage.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
General references
Aspinall, G.O. (1970) Polysaccharides, Pergamon Press, Oxford.
Bailey, R. L. (1967) Techniques in Protein Chemistry, 2nd edn, Elsevier, Amsterdam.
Bartnicki-Garcia, S. (1971) Cell wall composition and other biochemical markers in fungal phylogeny. in Phytochemical Phylogeny (ed. J.B. Harborne), Academic Press, London, p. 81–104.
Boulter, D. and Parthier, B. (1982) Nucleic Acids and Proteins in Plants. I Structure. Biochemistry and Physiology of Proteins, Springer-Verlag, Berlin.
Catsimpoolas, N. (ed.) (1976) Isoelectric Focusing, Academic Press, New York.
Catsimpoolas, N. (1983) Proteins. in Chromatography Part B Applications (ed. E. Heftmann), Elsevier, Amsterdam, pp. 53–74.
Cohn, W. E. (1967) Column chromatography of nucleic acids and related substances. In Chromatography (ed. E. Heftmann), 2nd edn, Reinhold, New York, pp. 627–60.
Cowling, G.J. (1983) Nucleic acids. in Chromatography Part B Applications (ed. E. Heftmann), Elsevier. Amsterdam, pp. 345–76.
Croft, L.R. (1980) Introduction to Protein Sequence Analysis, John Wiley. Chichester.
Daussant, J., Mosse, J. and Vaughan, J. (eds) (1983) Seed Proteins, Academic Press. London.
Deyl, Z. (ed.) (1982) Electrophoresis. PartB. Applications, Elsevier, Amsterdam.
Fairbrothers, D.E. (1968) Chemosystematics with emphasis on systematic serology. In Modern Methods in Plant Taxonomy (ed. V.H. Heywood), Academic Press. London. pp.141–73.
Grossman, L. and Moldave, K. (eds) (1967–8) Nucleic Acids, Parts A and B. in Methods in Enzymology, Academic Press. New York.
Hall, T.C. and Davies, J.W. (eds) (1979) Nucleic Acids in Plants, CRC Press, Boca Raton, Florida.
Harborne, J.B. and Van Sumere, C.F. (eds) (1975) Chemistry and Biochemistry of Plant Proteins, Academic Press, London.
Hindley, J. and Studen, R. (1983) DNA Sequencing, Elsevier Biomedical Press. Amsterdam.
Linskens, H.F. and Tracey, M.V. (eds) (1963) Modern Methods in Plant Analysis (Vol. VI), Springer-Verlag, Berlin.
Linskens, H.F. and Tracey, M.V. (eds) (1964) Modern Methods in Plant Analysis (Vol. VII). Springer-Verlag, Berlin.
Loewus, F.A. and Tanner, W. (eds) (1982) Plant Carbohydrates I. Intracellular Carbohydrates, Springer-Verlag. Berlin.
Marcus, A. (ed.) (1981) Proteins and Nucleic Acids (The Biochemistry of Plants. Vol. 6). Academic Press, New York.
Norton, G. (ed.) (1978) Plant Proteins. Butterworths, London.
Paech, K. and Tracey, M.V. (eds) (l955a) Modern Methods in Plant Analysis (Vol. II). Springer-Verlag, Berlin.
Paech, K. and Tracey, M.V. (eds) (1955b) Modern Methods in PlantAnalysis (Vol. IV). Springer-Verlag, Berlin.
Percival, E. (1966) The natural distribution of plant polysaccharides. in Comparative Phytochemistry (ed. T. Swain), Academic Press, London. pp. 139–58.
Percival, E. and McDowell, R.H. (1967) Chemistry and Enzymology of Marine Algal Polysaccharides, Academic Press, London. p. 219.
Rhodes, M.J.C. (1977) The extraction and purification of enzymes from plant tissues. in Regulation of Enzyme Synthesis and Activity in Higher Plants (ed. H. Smith). Academic Press, London, pp. 245–70.
Siegel, S.M. (1962) The Plant Cell Wall. Pergamon Press. Oxford. p. 124.
Tanner, W. and Loewus, F.A. (eds) (1981) Plant Carbohydrates II Extracellular Carbohydrates, Springer-Verlag. Berlin.
Tipson, R.S. and Horton, D. (eds) (1983) Advances in Carbohydrate Chemistry and Biochemistry (Vol. 41), Academic Press. New York.
Whistler, R.L. (ed.) (1963–5) Methods in Carbohydrate Chemistry (Vols, III-V). Academic Press, New York.
Supplementary references
Akazawa, T. (1979) in Photosynthesis II Photosynthetic Carbon Metabolism and Related Processes (eds M. Gibbs and E. Latzko), Springer-Verlag, Berlin. pp. 208–29.
Andrews, P.G. (1964) Biochem. J., 91, 222.
Andrews, P.G., Hough, L. and Stacey, B. (1960) Nature (Lond.) 185, 166.
Bailey, R.W., Haq, S. and Hassid, W.Z. (1967) Phytochemistry, 6, 293.
Bailey, R.W. and Pain, V. (1971) Phytochemistry, 10, 1065.
Bartnicki-Garcia, S. (1966) J. Gen. Microbiol., 42, 57.
Belford, H.S., Thompson, W. F. and Stein, D. B. (1981) in Phytochemistry and Angiosperm Phylogeny (eds D.A. Young and D.S. Seigler). Praeger, New York. pp. 1–18.
Biswas, S.B. and Sarkar, A. K. (1970) Phytochemistry, 9, 2425.
Bolton, E.T. and Bendich, A. J. (1967) Plant Physiol. (Lancaster). 42, 959.
Bolton, E.T. and Britten. R. J. (1965) Ann. Rept. Dept. Terrestrial Magnetism. Carnegie Inst. Wash., 313.
Boulter, D., Thurman, D. and Derbyshire, E. (1967) New Phvtologist. 66, 27, 37, 46.
Burton, K. (1956) Biochem. J., 62, 315.
Calam, D.H., Davidson, J. and Ford, A. W. (1983). J. Chromatog., 266, 293.
Cherry, J.H. and Chroboczek, H. (1966) Phytochemistry, 5, 411.
Conacher, A.B.S. and Rees, D. I. (1966) Analyst, 91, 55.
Crowden, R.K., Harborne, J. B. and Heywood, V. H. (1969) Phytochemistry, 8, 1965.
De, G.N., Ghosh, J. J. and Bhattacharyya, K. (1972) Phytochemistry, 11, 3349.
De Ley, J. (1964) Ann. Rev. Microbiol., 18, 17.
Detchou, P. and Possingham, J. V. (1972) Phytochemistry, 11, 943.
Flavell, R.B., Rimpau, J. and Smith, D. B. (1977) Chromosoma, 63, 205.
Gaillard, B.D.E. (1958) J. Sci. Food Agric., 9, 170, 346.
Gaillard, B.D.E. (1965) Phytochemistry, 4, 63l.
Gottlieb, L. D. (1981) Prog. Phytochem., 7, l.
Gray, J.C. (1980) in Chemosystematics, Principles and Practice (eds F.A. Bisby, J.G. Vaughan and C.A. Wright), Academic Press, London, pp. 167–94.
Green, B. (1971) Biochim. Biophys. Acta., 254, 402.
Holdgate, D.P. and Goodwin, T.W. (1965) Phytochemistry, 4, 83l.
Ingle, J. (1963) Phytochemistry, 2, 353.
Ikan, R. (1969) Natural Products, Academic Press. London, pp. 260–70.
Kirby, K.S. (1965) Biochem. J., 96, 266.
Koller, B. and Smith, H. (1972) Phytochemistry, 11, 1295.
Loening, U.E. (1967) Biochem. J., 102, 251.
Loening, U.E. (1973) Pure Appl. Chem., 34, 579.
Logan, J. E., Mannell, W. A. and Rossiter, R. J. (1952) Biochem. J., 51, 470.
Lowry, O.H., Rosebrough, N. J., Farr, A. L. and Randall, R. J. (1951) J. Biol. Chem., 193, 265.
Lund, B.M. (1965) J. Gen. Murobiol., 40, 413.
McIntosh, L., Poulsen, C. and Bogorad, L. (1980) Nature (Lond.), 288, 556.
McLeester, R.C., Hall, T.C., Sun, S.M. and Bliss, F. A. (1973) Phytochemistry, 12, 85.
O’Farrell, P. H. (1975) J. Biol. Chem., 250, 4007.
Osborne, T.B. (1924) The Vegetable Proteins, 2nd edn, Longmans, Green & Co., London.
Palmer, J.D., Osorio, B., Thompson. W.F. and Nobs, M.A. (1983) Rep. 1981–2 of the Carnegie Institute, Washington DC, 96–97.
Reger, B. J., Ku, M. S. B., Potter, J. N. and Evans, J. J. (1983) Phytochemistry, 22, 1127.
Reid, J.S.G. and Wilkie, K.C.B. (1969) Phytochemistry, 8, 2053, 2059.
Sargent, J. R. (1969) Methods in Zone Electrophoresis, 2nd edn, BDH Chemicals Limited. Poole, Dorset.
Simpson, S.A., Lawlis, V.B. and Mueller, D. D. (1983) Phytochemistry, 22, 1121.
Smith, D.B. and Flavell, R.B. (1974) Biochem. Genet., 12, 243.
Storck, R. and Alexopoulos, C. J. (1970) Bact. Rev., 34, 126.
Vaughan, J. G., Waite, A., Boulter, D. and Waiters, S. (1966) J. Exp. Bot., 17, 332.
Wade, N.L., O’Connell, P.B.H. and Brady, C. J. (1972) Phytochemistry, 11, 978.
Wilkinson, S.G. and Carby, K. A. (1971) J. Gen. Microbiol., 66, 22l.
Witham, F.H., Blaydes, D. F. and Devlin, R. M. (1971) Experiments in Plant Physiology, Van Nostrand, New York.
Wright, D.J. and Boulter, D. (1973) Phytochemistry; 12, 79.
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 1984 J. B. Harborne
About this chapter
Cite this chapter
Harborne, J.B. (1984). Macromolecules. In: Phytochemical Methods. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-5570-7_7
Download citation
DOI: https://doi.org/10.1007/978-94-009-5570-7_7
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-8956-2
Online ISBN: 978-94-009-5570-7
eBook Packages: Springer Book Archive