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REFERENCES

  • Albaum, H. G., Kaiser, S. & Nestler, H. A. (1937). The relation of hydrogen-ion concentration to the penetration of 3-indole acetic acid into Nitella cells. Amer. J. Bot., 24, 613.
  • Andreae, W. A. & Van Ysselstein, M. W. M. (1960). Studies on 3-indole acetic acid metabolism. VI. 3-indole acetic acid uptake and metabolism by pea roots and epicotyls. Pl. Physiol. Lancaster, 35, 225.
  • Bean, R. C., Shepherd, W. C. & Chan, H. (1968). Permeability of lipid bilayer membranes to organic solutes. J. gen. Physiol., 52, 496.
  • Bennett, M. C. (1955). The influence of the cell membrane on some toxicity effects of growth substances in Nitella. J. exp. Bot., 6, 276.
  • Briggs, G. E., Hope, A. B. & Robertson, R. N. (1961). Electrolytes and Plant Cells. Blackwell Scientific publications, Oxford .
  • Chang, Y-P. & Jacobs, W. P. (1972). The contrast between active transport and diffusion of indole-3-acetic acid in Coleus petioles. Pl. Physiol. Lancaster, 50, 635.
  • Christie, A. E. & Leopold, C. L. (1965). Entry and exit of indole acetic acid in corn coleptiles. Pl. cell Physiol., 6, 453.
  • Collander, R. (1949). The distribution of organic compounds between ether and water. Acta. Chem. Scand., 3, 717.
  • Collander, R. (1959). Cell membranes: their resistance to penetration and their capacity for transport. In: Plant Physiology: A Treatise (Ed. by F. C.Steward), Vol. II, pp. 3102. Academic Press, New York .
  • Davies, P. J. (1973). Current theories on the mode of action of auxin. Bot. Rev., 39, 140.
  • Evans, M. L. (1974). Rapid responses to plant hormones. A. Rev. Pl. Physiol., 35, 195.
  • Goldsmith, M. H. M. (1968). The transport of auxin. A. Rev. Pl. Physiol., 19, 347.
  • Hertel, R. & Leopold, A. C. (1963). Versuche zur Analyse des Auxin-transports in der Koleptile von Zea mays L. Planta, 59, 297.
  • Hope, A. B., Simpson, A. & Walker, N. A. (1966). The efflux of chloride from cells of Nitella and Chara. Austr. J. biol. Sci., 19, 355.
  • Jackson, M. J., Schiou, Y-F., Bane, S. & Fox, M. (1974). Intestinal transport of weak electrolytes. Evidence in favour of a 3-compartment system. J. gen. Physiol., 63, 187.
  • Kishimoto, U., Nagai, R. & Tazawa, M. (1965). Plasmalemma potential in Nitella. Pl. cell Physiol., 6, 519.
  • Larsen, P. (1955). Growth Substances in Higher Plants. Modern Methods of Plant Analysis. Vol. III, 565625. Springer-Verlag, Berlin .
  • Leblanc, O. H. Jr (1969). Tetraphenylborate conductance through lipid bilayer membranes. Biochim. biophys. Acta, 193, 350.
  • Leblanc, O. H. Jr (1971). The effect of uncouplers of oxidative phosphorylation on lipid bilayer membranes: CCCP. J. membrane Biol, 4, 227.
  • Leopold, A. C. & Hall, F. O. (1966). Mathematical model of polar auxin transport. Pl. Physiol. Lancaster, 41, 1476.
  • Pagano, R. & Thompson, T. E. (1968). Spherical lipid bilayer membranes: electrical and isotopic studies of ion permeability. J. Mol. Biol., 38, 41.
  • Poole, R. J. & Thimann, K. V. (1964). Uptake of indole-3-acetic acid and indole-3-acetonitrile by Avena coleptiles. Pl. Physiol. Lancaster, 39, 98.
  • Raven, J. A. (1967). Ion transport in Hydrodictyon africanum. J. gen. Physiol., 50, 1607.
  • Raven, J. A. (1970). Exogenous inorganic carbon sources in plant photosynthesis. Biol. Rev., 50, 167.
  • Raven, J. A. (1974). Discussion of paper by R. Hertel. From an oral communication at International Workshop on membrane transport in plants, given at Julich, West Germany in February 1974.
  • Raven, J. A. (1975). Transport in algal cells and tissues. in: Encyclopedia of Plant Physiology (New Edition), (Eds. U.Luttge and M. G.Pitman). Vol. 00, Springer-Verlag, Berlin , in press.
  • Raven, J. A. & Smith, F. A. (1973). The regulation of intracellular pH as a fundamental biological process. in: Ion transport in plants (Ed. W. P.Anderson), pp. 271278. Academic Press, London .
  • Raven, J. A. & Smith, F. A. (1974). The significance of hydrogen ion transport in plant cells. Can. J. Bot., 52. 1035.
  • Reinhold, L. (1954). The uptake of indole-3-acetic acid by pea epicotyl segments and carrot discs. New PhytoL, 53, 217.
  • Roos, A. (1965). Intracellular pH and intracellular buffering power of the cat brain. A. J. Physiol., 309, 1233.
  • Rubery, P. H. & Sheldrake, A. R. (1973). Effect of pH and surface charge on cell uptake of auxin. Nature New Biology, 244, 286.
  • Rubery, P. H. & Sheldrake, A. R. (1974). Carrier-mediated auxin transport. Planta, 118, 101.
  • Scott, B. I. H. (1967). Electric fields in plants. A Rev. Pl. Physiol., 18, 409.
  • Spanswick, R. M., Stolarek, J. & Williams, E. J. (1967). The membrane potential of Nitella translucens. J. exp. Bot., 18, 1.
  • Sutter, E. (1944). Die chemische Bestimmung des Heteroauxins und Versuche uber seine Aufnahme durch die Pflanze. Ber. Schweiz. bot. Ges., 54, 197.
  • Thimann, K. V. & Wardlaw, I. F. (1963). The effect of light on the uptake and transport of IAA in the green stem of pea. Physiologia Pl., 16, 368.
  • Waddell, W. J. & Bates, R. G. (1969). Intracellular pH. Physiol. Rev., 49, 285.