Abstract
It is now recognized that plant hormones play an important role in the regulation of ion transport and it may be safely predicted that recent observations will stimulate research into its mechanistic aspects. This applies especially to such topics as the effect of auxin on the movement of H+ ions, the kinin-abscisic acid controlled mechanism of stomatal aperture, the stimulation of salt glands by kinetin, the abscisic acid-induced stimulation of Cl- influx in storage tissues and the effects of abscisic acid on K+ and Cl- exudation from cut ends of barley and maize roots.
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
Abeles, F.B.: Biosynthesis and mechanism of action of ethylene. Ann. Rev. Plant Physiol. 23, 259–292 (1972).
Allen, A.K., Neuberger, A.: The purification and properties of the lectin from potato tubers, a hydroxy proline containing glycoprotein. Biochem. J. 135, 307–314 (1973).
Amrhein, N.: Cyclic nucleotide phosphodiesterase in plants. Z. Pflanzenphysiol. 72, 249–261 (1974a).
Amrhein, N.: Evidence against the occurrence of adenosine—3′,5′-cyclic monophosphate in higher plants. Planta 118, 241–258 (1974b).
Amrhein, N., Filner, P.: Adenosine 3’: 5’: cyclic monophosphate in Chlamydomonas reinhardtii: isolation and characterization. Proc. Natl. Acad. Sci. U.S. 70, 1099–1103 (1973).
Arisz, W.H.: Significance of the symplasm theory for transport across the root. Protoplasma (Wien) 46, 5–62 (1956).
Armstrong, J.E., Jones, R.L.: Osmotic regulation of α-amylase synthesis and polyribosome formation in aleurone cells of barley. J. Cell Biol. 59, 444–455 (1973).
Arntzen, C.J., Haugh, M.F., Boback, S.: Induction of stomatal closure by Helminthosporum maidis pathotoxin. Plant Physiol. 52, 569–574 (1973).
Arslan-Çerim, N.: The redistribution of radioactivity in geotropically stimulated hypocotyls of Helianthus annuus pretreated with radioactive calcium. J. Exptl. Bot. 17, 236–240 (1966).
Artimonova, G.M., Artimonov, V.I.: Effect of gibberellin on electrolyte permeability of cells. Soviet Plant Physiol. 18, 536–537 (1971).
Audus, L.J.: Plant growth substances, vol. 1: Chemistry and physiology. New York: Harper and Row 1972.
Azhar, S., Krishna Murti, C.R.: Effect of indole-3-acetic acid on the synthesis of cyclic 3′-5′ adenosine phosphate by bengal gram seeds. Biochem. Biophys. Res. Commun. 43, 58–64(1971).
Ballio, A., Brufani, M., Casinovi, C.G., Cerrini, S., Fedeli, W., Pellicciari, R., Santurbano, B., Vaciago, A.: The structure of fusicoccin A. Experientia 24, 631–635 (1968a).
Ballio, A., Graniti, A., Pocchiari, F., Silano, V.: Some effects of “fusicoccin A” on tomato leaf tissues. Life Sci. 7, 751–760 (1968 b).
Barton, K.A., Verbeek, R., Ellis, R., Kahn, A.A.: Abscisic acid inhibition of gibberellic acid and cyclic 3′-5′-adenosine monophosphate induced a-amylase synthesis. Physiol. Plantarum 29, 186–189 (1973).
Bentrup, F.W., Pfrüner, H., Wagner, G.: Evidence for differential action of indole acetic acid upon ion fluxes in single cells of Petroselinum sativum. Planta 110, 369–372 (1973).
Bode, H.R.: Über den Einfluß der Geoinduktion auf die Kationen-Verteilung im Hypocotyl von Helianthus annuus. Planta 54, 15–33 (1959).
Bonner, J.: The relation of hydrogen ions to the growth rate of the Avena coleoptile. Protoplasma 21, 406–423 (1934).
Bozcuk, S.: Effect of growth regulators on the activity of salt glands of Statice sinuata and Statice latifolia. In: Hormonal regulation in plant growth and development (H. Kaldewey, Y. Vardar, eds.), Proc. Adv. Study Inst. Izmir 1971 p. 89–96. Weinheim: Verlag Chemie 1972.
Brand, J., Baszynski, T., Crane, F.L., Krogmann, D.W.: Photosystem I inhibition by polyca-tions. Biochem. Biophys. Res. Commun. 45, 538–543 (1971).
Brauner, L.: Untersuchungen über das geoelektrische Phänomen. Jahrb. Wiss. Botan. 66, 381–428(1927).
Brauner, L.: Untersuchungen über das geoelektrische Phänomen IL Membranstruktur und geoelektrischer Effekt. Jahrb. Wiss. Botan. 68, 711–770 (1928).
Brauner, L.: Primäreffekte der Schwerkraft bei der geotropischen Reaktion. In: Encyclopedia of plant physiology (W. Ruhland, ed.), vol. XVII, pt. 2, p. 74–102. Berlin-Heidelberg-New York: Springer 1962.
Brauner, L., Brauner, M.: Versuche zur Analyse der geotropischen Perzeption. III. Über den Einfluß des Schwerefeldes auf die Dehnbarkeit der Zellwand und den osmotischen Wert des Zellsaftes. Planta 58, 301–325 (1962).
Brewin, N.J., Northcote, D.H.: Variations in the amounts of 3′,5′-cyclic AMP in plant tissues. J. Exptl. Bot. 24, 881–888 (1973 a).
Brewin, N.J., Northcote, D.H.: Partial purification of a cyclic AMP phosphodiesterase from soybean callus. Isolation of a non-dialysable inhibitor. Biochim. Biophys. Acta 320, 104–122 (1973b).
Briggs, W.R., Rice, H.V.: Phytochrome: chemical and physical properties and mechanism of action. Ann. Rev. Plant Physiol. 23, 293–334 (1972).
Brown, E.G., Newton, R.P.: Occurrence of adenosine 3′:5 -cyclic monophosphate in plant tissues. Phytochemistry 12, 2683–2685 (1973).
Burström, H.: Growth regulation by metals and chelates. In: Advances in botanical research (R.D. Preston, ed.), vol. 1, p. 73–100. London-New York: Academic Press 1963.
Carr, D.J., ed.: Plant growth substances 1970, p. 1–837. Berlin-Heidelberg-New York: Springer 1972.
Chain, E.B., Mantle, P.G., Milborrow, B.V.: Further investigations of the toxicity of fusicoc-cins. Physiol. Plant Pathol. 1, 495–514 (1971).
Clark, W.G.: Electrical polarity and auxin transport. Plant Physiol. 13, 529–552 (1938).
Cleland, R.: Effect of auxin upon loss of calcium from cell walls. Plant Physiol. 35, 581–584 (1960).
Cleland, R.: An auxin-induced hydrogen ion pump in Avena coleoptiles. Plant Physiol., Suppl. 51, 2 (1973).
Cleland, R.: Fusicoccin as a tool for studying the mechanism of auxin action. Plant Physiol., Suppl. 53, 43 (1974).
Collins, J.C., Kerrigan, A.P.: Hormonal control of ion movements in the plant root. In: Ion transport in plants (W.P. Anderson, edd.), p. 589–593. London-New York: Academic Press 1973.
Collins, J.C., Kerrigan, A.P.: The effect of kinetin and abscisic acid on water and ion transport in isolated maize roots. New Phytologist 73, 309–314 (1974).
Cram, W.J., Pitman, M.G.: The action of abscisic acid on ion uptake and water flow in plant roots. Australian J. Biol. Sci. 25, 1125–1132 (1972).
Cummins, W.R., Kende, H., Raschke, K.: Specificity and reversibility of the rapid stomatal response to abscisic acid. Planta 99, 347–351 (1971).
Das, V.S.R., Raghavendra, A.S.: Role of cyclic photo-phosphorylation in the control of stomatal opening. In: Mechanisms of regulation of plant growth (R.L. Bieleski, A.R. Ferguson, M.M. Cresswell, eds.), Bulletin 12, p. 455–460. Wellington: Roy. Soc. of New Zealand 1974.
Dedolph, R.R., Breen, J.J., Gordon, S.A.: Geoelectric effect and geotropic curvature. Science 148, 1100–1101 (1965).
Degani, H., Shavit, N.: Ion movements in isolated chloroplasts. III. Ionophore-induced ion uptake and its effect on photophosphorylation. Arch. Biochem. Biophys. 152, 339–346 (1972).
De la Fuente, R.K., Leopold, A.C.: A role for calcium in auxin transport. Plant Physiol. 51, 845–847 (1973).
Diamond, J.M., Wright, E.M.: Biological membranes: the physical basis of ion and non electrolyte selectivity. Ann. Rev. Physiol. 31, 581–646 (1969).
Dohrmann, U., Johnson, K.D., Rayle, D.L.: Comparison of auxin and fusicoccin: growth, H+ secretion, glycosidase activation, and binding to membrane vesicles in Avena coleoptiles. Plant Physiol., Suppl. 53, 43 (1974).
Dörffling, K.: Die Regulation des Internodienwachstums von Erbsenkeimlingen durch Licht und Abscisinsäure. Z. Pflanzenphysiol. 70, 131–137 (1973).
Drew, M.C., McLaren, A.D.: The effect of histones and other basic macro-molecules on cell permeability and elongation of barley roots. Physiol. Plantarum 23, 544–560 (1970).
Duffus, C.M., Duffus, J.H.: A possible role for cyclic AMP in gibberellic acid triggered release of α-amylase in barley endosperm slices. Experientia 25, 581 (1969).
Earle, K.M., Galsky, A.G.: The action of cyclic-AMP on GA3 controlled responses. II. Similarities in the induction of barley endosperm ATP-ase activity by gibberellic acid and cyclic-3′,5′-adenosine monophosphate. Plant Cell Physiol. 12, 727–732 (1971).
Eastwood, D., Laidman, D.L.: The hormonal control of inorganic ion release from wheat aleurone tissue. Phytochemistry 10, 1459–1467 (1971).
Eilam, Y.: Permeability changes in senescing tissue. J. Exptl. Bot. 16, 614–627 (1965).
Epstein, E.: The essential role of calcium in selective transport of plant cells. Plant Physiol. 36, 437–444 (1961).
Eshel, A., Waisel, Y.: Heterogeneity of ion uptake mechanisms along primary roots of maize seedlings. In: Ion transport in plants (W.P. Anderson, ed.), p. 531–537. London-New York: Academic Press 1973.
Etherton, B.: Effect of indole-3-acetic acid on membrane potentials of oat coleoptile cells. Plant Physiol. 45, 527–528 (1970).
Etherton, B., Dedolph, R.R.: Gravity and intercellular differences in membrane potentials of plant cells. Plant Physiol. 49, 1019–1020 (1972).
Evans, M.L.: Rapid responses to plant hormones. Ann. Rev. Plant Physiol. 25, 195–223 (1974).
Evins, W.H., Varner, J.E.: Hormone-controlled synthesis of endoplasmic reticulum in barley aleurone cells. Proc. Natl. Acad. Sci. U.S. 68, 1631–1633 (1971).
Feng, K.A.: Effects of kinetin on the permeability of Allium cepa cells. Plant Physiol. 51, 868–870 (1973).
Feng, K.A., Unger, J.W.: Influence of kinetin on the membrane permeability of Allium cepa cells. Experientia 28, 1310–1311 (1972).
Fensom, D.S., Wanless, I.R.: Further studies of electro-osmosis in Nitella in relation to pores in membranes. J. Exptl. Bot. 18, 563–577 (1967).
Fischer, R.A.: Role of potassium in stomatal opening in the leaf of Vicia faba. Plant Physiol. 47, 555–558 (1971).
Fischer, R.A.: Aspects of potassium accumulation by stomata of Vicia faba. Australian J. Biol. Sci. 25, 1107–1123(1972).
Fischer, U., Amrhein, N.: Cyclic nucleotide phosphodiesterase of Chlamydomonas reinhardtii. Biochim. Biophys. Acta 341, 412–420 (1974).
Fisher, M.L., Albersheim, P.: A calcium dependent hydrogen pump in plant plasma membranes. Plant Physiol. Suppl. 51, 2 (1973).
Fishman, S.N., Chodorov, B.I., Volkenstein, M.V.: Molecular mechanisms of membrane ionic permeability changes. Biochim. Biophys. Acta 225, 1–10 (1971).
Galsky, A.G., Lippincott, J.A.: Promotion and inhibition of α-amylase production in barley endosperm by cyclic 3′,5′-adenosine monophosphate and adenosine di-phosphate. Plant Cell Physiol. 10, 607–620 (1969).
Galston, A.W., Da vies, P.J.: Hormonal regulation in plants. Science 163, 1288–1297 (1969).
Gertman, E., Fuch, Y.: Effect of abscisic acid and its interactions with other plant hormones on ethylene productions in two plant systems. Plant Physiol. 50, 194–195 (1972).
Giannattasio, M.: Content of 3′,5′ cyclic AMP and cyclic AMP phosphodiesterase in dormant and activated tissues of Jerusalem artichoke tubers. Biochem. Biophys. Res. Commun. 57, 365–371 (1974).
Gilbert, M.L., Galsky, A.G.: The action of cyclic-AMP on GA3 controlled responses. III Characteristics of barley endosperm acid phosphatase induction by gibberellic acid and cyclic 3′,5′-adenosine monophosphate. Plant Cell Physiol. 13, 867–873 (1972).
Glinka, Z.: Abscisic acid effect on root exudation related to increased permeability to water. Plant Physiol. 51, 217–219 (1973).
Glinka, Z., Reinhold, L.: Rapid changes in permeability of cell membranes to water brought about by carbon dioxide and oxygen. Plant Physiol. 37, 481–486 (1962).
Glinka, Z., Reinhold, L.: Abscisic acid raises the permeability of plant cells to water. Plant Physiol. 48, 103–105 (1971).
Glinka, Z., Reinhold, L.: Induced changes in permeability of plant cell membranes to water. Plant Physiol. 49, 602–606 (1972).
Goldsmith, M.H.M., Wilkins, M.B.: Movement of auxin in coleoptiles of Zea mays L during geotropic stimulation. Plant Physiol. 39, 151–162 (1964).
Goldthwaite, J.J.: Activity of cyclic and noncyclic nucleotides as senescence inhibitors in Rumex obtusifolius leaf tissue. Plant Physiol., Suppl. 53, 58 (1974).
Gotô, N., Esashi, Y.: Differential hormone responses in different growing zones of the bean hypocotyl. Planta 116, 225–241 (1974).
Grunwald, C.: Effect of sterols on the permeability of alcohol-treated red beet tissue. Plant Physiol. 43, 484–488 (1968).
Hadačová, V., Luštinec, J., Kamínek, M.: Kinetin and naphthalene acetic acid and controlled starch formation in isolated roots of Pisum sativum. Biol. Plant. Acad. Sci. Bohemoslov. 15, 427–429 (1973).
Hager, A., Menzel, H., Krauss, A.: Versuche und Hypothese zur Primärwirkung des Auxins beim Streckungswachstum. Planta 100, 47–75 (1971).
Hall, J.L.: Pinocytotic vesicles and ion transport in plant cells. Nature 226, 1253–1254 (1970).
Hanson, J.B.: Ion transport induced by polycations and its relationship to loose coupling of corn mitochondria. Plant Physiol. 49, 707–715 (1972).
Haschke, H.-P., Lüttge, U.: β-Indolylessigsäure (-IES) — abhängiger K +-H +-Austauschmechanismus und Streckungswachstum bei Avena — Koleoptilen. Z. Naturforsch. 28C, 555–558 (1973).
Haupt, W.: Die Orientierung der Phytochrom-Moleküle in der Mougeotiazelle: Ein neues Modell zur Deutung der experimentellen Befunde. Z. Pflanzenphysiol. 58, 331–346 (1968).
Haupt, W.: Über den Diochroismus von Phytochrom660 und Phytochrom730 bei Mougeotia. Z. Pflanzenphysiol. 62, 287–298 (1970a).
Haupt, W.: Localization of phytochrom in the cell. Physiol. Vég. 8, 551–563 (1970 b).
Haupt, W., Mörtel, G., Winkelnkemper, I.: Demonstration of different dichroic orientation of phytochrome PR and PFR. Planta 88, 183–186 (1969).
Haydon, D.A., Hladky, S.B.: Ion transport across thin lipid membranes: a critical discussion of mechanisms in selected systems. Quart. Rev. Biophysics 5, 187–282 (1972).
Heath, O.V.S., Clark, J.E.: Chelating agents as plant growth substances. A possible clue to the mode of action of auxin. Nature 177, 1118–1121 (1956).
Heath, O.V.S., Clark, J.E.: Chelation in auxin action. I. A study of the interactions of 3-indolyl acetic acid and synthetic chelating agents as affecting the growth of wheat roots and coleoptile sections. J. Exptl. Bot. 11, 167–187 (1960).
Hendrix, D.L., Higinbotham, N.: Effects of filipin and cholesterol on K + movement in etiolated stem cells ofPisum sativum L. Plant Physiol. 52, 93–97 (1973).
Heyn, A.N.J.: Observations on the exocytosis of secretory vesicles and their products in coleop-tiles of Avena. J. Ultrastruct. Res. 37, 69–81 (1971).
Higinbotham, N.: Electropotential of plant cells. Ann. Rev. Plant Physiol. 24, 25–46 (1973).
Higinbotham, N., Davis, R.F., Mertz, S.M., Shumway, L.K.: Some evidence that radial transport in maize roots is into living vessels. In: Ion transport in plants (W.P. Anderson, ed.), p. 493–506. London-New York: Academic Press 1973.
Higinbotham, N., Latimer, H., Eppley, R.: Stimulation of rubidium absorption by auxins. Science 118, 243–245 (1953).
Higinbotham, N., Pratt, M.J., Foster, R.J.: Effects of calcium, indole-acetic acid, and distance from stem apex on potassium and rubidium absorption by excised segments of etiolated pea epicotyl. Plant Physiol. 37, 203–214 (1962).
Hill, A.E.: A theory of hydro-osmotic hormone action. J. Theoret. Biol. 36, 271–281 (1972).
Hille, B.: The permeability of the sodium channel to metal cations in myelinated nerve. J. Gen. Physiol. 59, 637–658 (1972).
Hiron, R.W.P., Wright, S.T.C.: The role of endogenous abscisic acid in the response of plants to stress. J. Exptl. Bot. 24, 769–781 (1973).
Hodges, T.K., Darding, R.L., Weidner, T.: Gramicidin-D stimulated influx of monovalent cations into plant roots. Planta 97, 245–256 (1971).
Horton, R.F.: Stomatal opening: the role of abscisic acid. Canad. J. Bot. 49, 583–585 (1971).
Horton, R.F., Bruce, K.R.: Inhibition by abscisic acid of the light and dark uptake of potassium by slices of Vicia faba leaves. Canad. J. Bot. 50, 1915–1917 (1972).
Horton, R.F., Moran, L.: Abscisic acid inhibition of K+ influx into stomatal guard cells. Z. Pflanzenphysiol. 66, 193–196 (1972).
Hourmant, A., Penot, M.: Etude comparée de l’absorption du 86Rb par différents organes végétaux en presence de calcium. Compt. Rend. 273 D, 2518–2521 (1971).
Hourmant, A., Penot, M.: Action de la benzyladenine sur l’absorption du rubidium par des disques de tubercules de pomme de terre. Compt. Rend. 276 D, 323–326 (1973 a).
Hourmant, A., Penot, M.: Action de la benzyladenine sur l’absorption du molybdate par des disques de tubercules de pomme de terre. Compt. Rend. 277 D, 297–300 (1973b).
Humble, G.D., Hsiao, T.C.: Light-dependent influx and efflux of potassium of guard cells during stomatal opening and closing. Plant Physiol. 46, 483–487 (1970).
Ilan, I.: A specific stimulatory action of indolyl-3-acetic acid on potassium uptake by plant cells, with concomitant inhibition of ammonium uptake. Nature 194, 203–204 (1962).
Ilan, I.: Evidence for hormonal regulation of the selectivity of ion uptake by plant cells. Physiol. Plantarum 25, 230–233 (1971).
Ilan, I.: An auxin-induced pH drop and on the improbability of its involvement in the primary mechanism of auxin-induced growth promotion. Physiol. Plantarum 28, 146–148 (1973).
Ilan, I., Gilad, T., Reinhold, L.: Specific effects of kinetin on the uptake of monovalent cations by sunflower cotyledons. Physiol. Plantarum 24, 337–341 (1971).
Ilan, I., Reinhold, L.: Analysis of the effects of indole-3-acetic acid on the uptake of monovalent cations. Physiol. Plantarum 16, 596–603 (1963).
Ilan, I., Reinhold, L.: Reversal by sucrose of the effects of indolyl-3-acetic acid on cation uptake by plant cells. Nature 201, 726 (1964).
Imber, D., Tal, M.: Phenotypic reversion of flacca, a wilty mutant of tomato by abscisic acid. Science 169, 592–593 (1970).
Itai, C., Vaadia, Y.: Kinetin-like activity in root exudate of water stressed sunflower plants Physiol. Plantarum 18, 941–944 (1965).
Jacoby, B., Dagan, J.: Effects of 6N-benzyladenine on primary leaves of intact bean plants and on their sodium absorption capacity. Physiol. Plantarum 23, 397–403 (1970).
Jaffe, M.J.: Phytochrome-mediated bioelectric potentials in mung bean seedlings. Science 162, 1061–1067 (1968).
Jaffe, M.J., Galston, A.W.: Phytochrome control of rapid nyctinastic movements and membrane permeability in Albizzia julibrissin. Planta 77, 135–141 (1967).
Janistyn, B.: Indol-3-essigsäure-induzierte Nukleotid-abgabe bei gleichzeitig erhöhter Adenosin-3′:5′-monophosphorsäure (C-AMP)-Synthese in Maiskoleoptilzylindern. Z. Naturforsch. 27b, 273–276 (1972).
Janistyn, B., Drumm, H.: Light-mediated changes in concentration of C-AMP in mustard seedlings. Naturwissenschaften 59, 218 (1972).
Jenkinson, I.S.: Bioelectric oscillations of bean roots: further evidence for a feedback oscillator. II Intracellular plant root potentials. Australian J. Biol. Sci. 15, 101–114 (1962a).
Jenkinson, I.S.: Bioelectric oscillations of bean roots: further evidence for a feedback oscillator. III Excitation and inhibition of oscillations by osmotic pressure, auxins, and antiauxins. Australian J. Biol. Sci. 15, 115–125 (1962b).
Jenkinson, I.S., Scott, B.I.H.: Bioelectric oscillations of bean roots: further evidence for a feedback oscillator. Australian J. Biol. Sci. 14, 231–243 (1961).
Jones, R.L.: Gibberellins: their physiological role. Ann. Rev. Plant Physiol. 24, 571–598 (1973a).
Jones, R.L.: Gibberellic acid and ion release from barley aleurone tissue. Evidence for hormone-dependant ion transport capacity. Plant Physiol. 52, 303–308 (1973 b).
Jost, J.-P., Rickenberg, H.V.: Cyclic AMP. Ann. Rev. Biochem. 40, 741–774 (1971).
Kaldewey, H., Vardar, Y., eds.: Hormonal regulation in plant growth and development. Proceedings of the Advanced Study Institute, Izmir 1971, p. 1–523. Weinheim: Verlag Chemie 1972.
Kamisaka, S.: Auxin-induced growth of tuber tissue of jerusalem artichokes VII Effect of cyclic 3′,5′-adenosine monophosphate on the auxin-induced cell expansion growth. In: Plant growth substances, 1970 (D.J. Carr, ed.), p. 654–660. Berlin-Heidelberg-New York: Springer 1972.
Kaufman, P.B., Petering, L.B., Yocum, C.S., Baic, D.: Ultrastructural studies on stomata development in internodes of Avena sativa. Amer. J. Bot. 57, 33–49 (1970).
Keck, R.W., Boyer, J.S.: Chloroplast response to low leaf water potentials. III Differing inhibition of electron transport and phosphorylation. Plant Physiol. 53, 474–479 (1974).
Kendrick, R.E., Hillman, W.S.: Ion relations, chlorophyll synthesis and the question of “bulk”phytochrome in Pisum sativum. Physiol. Plantarum 26, 7–12 (1972).
Kessler, B., Levinstein, R.: Adenosine 3′,5′-cyclic monophosphate in higher plants: assay, distribution and age-dependency. Biochim. Biophys. Acta 343, 156–166 (1974).
Köhler, D.: Phytochromabhängiger Ionentransport in Erbsensämlingen. Planta 84, 158–165 (1969).
Köhler, D.: Über den Zusammenhang zwischen Achsen- und Blattwachstum und Ionenaufnahme bei Keimlingen von Pisum sativum. Z. Pflanzenphysiol. 63, 185–193 (1970).
Köhler, D., Willert, K. von, Lüttge, U.: Phytochromabhängige Veränderungen des Wachstums und der Ionenaufnahme etiolierter Erbsenkeimlinge. Planta 83, 35–48 (1968).
Kuhl, U., Unger, M.: Wirkungen von Abscisinsäure auf den Kohlenhydrat- und Fettsäurehaushalt von Coleus blumei. Z. Pflanzenphysiol. 72, 135–140 (1974).
Lado, P., Pennachioni, A., Cadogno, F.R., Russi, S., Silano, V.: Comparison between some effects of fusicoccin and indole-3-acetic acid on cell enlargement in various plant materials. Physiol. Plant Pathol. 2, 75–85 (1972).
Lado, P., Rasi-Caldogno, F., Pennaechioni, A., Marrè, E.: Mechanism of the growth promoting action of fusicoccin. Interaction with auxin, and effects of inhibitors or respiration and protein synthesis. Planta 110, 311–320 (1973).
Läuchli, A., Kramer, D., Pitman, M.G., Lüttge, U.: Ultrastructure of xylem parenchyma cells of barley roots in relation to ion transport to the xylem. Planta 119, 85–99 (1974).
Läuchli, A., Lüttge, U., Pitman, M.G.: Ion uptake and transport through barley seedlings: differential effect of cycloheximide. Z. Naturforsch. 28C, 431–434 (1973).
Läuger, P.: Ion transport through pores: a rate-theory analysis. Biochim. Biophys. Acta 311, 423–441 (1973).
Leggett, J.E., Stolzy, L.H.: Anaerobiosis and sodium accumulation. Nature 192, 991–992 (1961).
Le John, H.B., Cameron, L.E.: Cytokinins regulate calcium binding to a glycoprotein from fungal cells. Biochem. Biophys. Res. Commun. 54, 1053–1060 (1973).
Le John, H.B., Stevenson, R.M.: Cytokinins and magnesium ions may control the flow of metabolites and calcium ions through fungal cell membranes. Biochem. Biophys. Res. Commun. 54, 1061–1066 (1973).
Lin, P.P.C.: Cyclic nucleotides in higher plants? In: Adv. Cycl. Nucleotide Res. (P. Greengard, G.A. Robison, eds.), vol. 4, p. 439–461. New York: Raven Press 1974.
Livnè, A., Vaadia, Y.: Stimulation of transpiration rate in barley leaves by kinetin and gibberellic acid. Physiol. Plantarum 18, 658–664 (1965).
Livnè, A., Vaadia, Y.: Water deficits and hormone relations. In: Water deficits and plant growth (T.T. Kozlowski, ed.), vol. 3, p. 255–275. New York-London: Academic Press 1972.
Loveys, B.R., Kriedemann, P.E., Törökfalvy, E.: Is abscisic acid involved in stomatal response to carbon dioxide? Plant Sci. Letters 1, 335–338 (1973).
Lüttge, U., Bauer, K., Köhler, D.: Frühwirkungen von Gibberellinsäure auf Membrantransporte in jungen Erbsenpflanzen. Biochim. Biophys. Acta 150, 452–459 (1968).
Lüttge, U., Higinbotham, N., Pallaghy, C.K.: Electrochemical evidence of specific action of indole acetic acid on membranes in Mnium leaves. Z. Naturforsch. 27b, 1239–1242 (1972).
Lüttge, U., Krapf, G.: Die Ultrastruktur der Blattzellen junger und alter Mnium-Sprosse und ihr Zusammenhang mit der Ionenaufnahme. Planta 81, 132–139 (1968).
Lüttge, U., Läuchli, A., Ball, E., Pitman, M.G.: Cycloheximide: a specific inhibitor of proteinsynthesis and intercellular ion transport in plant roots. Experientia 30, 470–471 (1974).
Lüttge, U., Pallaghy, C.K., Willert, K. von: Microautoradiographic investigations of sulfate uptake by glands and epidermal cells of water lily (Nymphaea) leaves with special reference to the effect of poly-1-lysine. J. Membrane Biol. 4, 395–407 (1971).
Macklon, A.E.S., Higinbotham, N.: Potassium and nitrate uptake and cell transmembrane electro-potential in excised pea epicotyls. Plant Physiol. 43, 888–892 (1968).
Mansfield, T.A., Jones, R.J.: Effects of abscisic acid on potassium uptake and starch content of stomatal guard cells. Planta 101, 147–158 (1971).
Marrè, E., Colombo, R., Lado, P., Rasi-Caldogno, F.: Correlation between proton extrusion and stimulation of cell enlargement. Effects of fusicoccin and of cytokinins on leaf fragments and isolated cotyledons. Plant Sci. Letters 2, 139–150 (1974a).
Marrè, E., Lado, P., Ferroni, A., Ballarin Denti, A.: Trans-membrane potential increase induced by auxin, benzyladenine and fusicoccin. Correlation with proton extrusion and cell enlargement. Plant Sci. Letters 2, 257–265 (1974b).
Marrè, E., Lado, P., Rasi-Caldogno, F., Colombo, R., De Michelis, M.I.: Evidence for the coupling of proton extrusion to K+ uptake in pea internode segments treated with fusicoccin or auxin. Plant Sci. Letters 3, 365–379 (1974c).
Mehard, C.W., Lyons, J.M., Kumamoto, J.: Utilization of model membranes in a test for the mechanism of ethylene action. J. Membrane Biol. 3, 173–179 (1970).
Mertz, S.N., Arntzen, C.J.: Fungal antiplant toxins. Communicated at International Workshop on Membrane Transport in Plants and Plant Organelles, Jülich, February 4th-8th, 1974.
Milborrow, B.V.: The chemistry and physiology of abscisic acid. Ann. Rev. Plant Physiol. 25, 259–307 (1974).
Miller, R.J., Bell, D.T., Koeppe, D.E.: The effects of water stress on some membrane characteristics of corn mitochondria. Plant Physiol. 48, 229–231 (1971).
Miller, R.J., Koeppe, D.E., Comeau, G., Malone, C.P.: Water stress induced changes in mitochondrial membranes. Plant Physiol., Suppl. 51, 22 (1973).
Mittelheuser, C.J., van Steveninck, R.F.M.: Stomatal closure and inhibition of transpiration by (rs)-abscisic acid. Nature 221, 281–282 (1969).
Mittelheuser, C.J., van Steveninck, R.F.M.: The ultrastructure of wheat leaves. II The effects of kinetin and ABA on detached leaves incubated in the light. Protoplasma 73, 253–262 (1971 a).
Mittelheuser, C.J., Steveninck, R.F.M. van: Rapid action of abscisic acid on photosynthesis and stomatal resistance. Planta 97, 83–86 (1971 b).
Mizrahi, Y., Blumenfeld, A., Richmond, A.E.: The role of abscisic acid and salination in the adaptive response of plants to reduced root aeration. Plant Cell Physiol. 13, 15–21 (1972).
Moore, C., Pressman, B.C.: Mechanism of action of valinomycin. Biochem. Biophys. Res. Commun. 15, 562–567 (1964).
Morré, D.J., Bracker, C.E.: Conformational alteration of soybean plasma membranes induced by auxin and calcium ions. Plant Physiol., Suppl. 53, 442 (1974).
Mudd, J.B., Kleinschmidt, M.G.: Effect of filipin on the permeability of red beet and potato tuber discs. Plant Physiol. 45, 517–518 (1970).
Neirinckx, L.J.A.: Influence de quelques substances de croissance sur l’absorption du sulfate par le tissu radiculaire de beterave rouge (Beta vulgaris L. ssp vulgaris var rubra L.). Ann. Physiol. Vég. Bruxelles 13, 83–108 (1968).
Nickells, M.W., Schaefer, G.M., Galsky, A.G.: The action of cyclic AMP on GA3 controlled responses. I Induction of barley endosperm protease and acid phosphatase activity by cyclic-3′,5′-adenosine monophosphate. Plant Cell Physiol. 12, 717–725 (1971).
Nicolas, P., Nigon, U.: L’adénosine -3′,5′-monophosphate cyclique et sa proteine fixatrice chez Euglena gracilis. Compt. Rend. 277D, 1641–1644 (1973).
Osborne, D.J., Jackson, M.B., Milborrow, B.V.: Physiological properties of abscission accelerator from senescent leaves. Nature New Biol. 240, 98–101 (1972).
Osmond, C.B., Laties, G.G.: Effect of poly-L-lysine on potassium fluxes in red beet tissue. J. Membrane Biol. 2, 85–94 (1970).
Paleg, L.G., Wood, A., Spotswood, T.M.: A possible mechanism of gibberellic acid action. Australian Soc. Plant Physiol., Abstracts 14th meeting, p. 52 (1973).
Pallaghy, C.K., Raschke, K.: No stomatal response to ethylene. Plant Physiol. 49, 275–276 (1972).
Pallas, J.E., Mollenhauer, H.H.: Electron microscopic evidence for plasmodesmata in dicotyledonous guard cells. Science 175, 1275–1276 (1972).
Pallas, J.E., Wright, B.G.: Organic acid changes in the epidermis of Vicia faba and their implication in stomatal movement. Plant Physiol. 51, 588–590 (1973).
Palmer, J.M.: The influence of growth regulating substances on the development of enhanced metabolic rates in thin slices of beetroot storage tissue. Plant Physiol. 41, 1173–1178 (1966).
Pickles, V.R., Sutcliffe, J.F.: The effects of 5-hydroxytryptamine, indole-3-acetic acid and some other substances on pigment effusion, sodium uptake, and potassium efflux by slices of red beetroot, in vitro. Biochim. Biophys. Acta 17, 244–251 (1955).
Pitman, M.G.: Adaptation of barley roots to low oxygen supply and its relation to potassium and sodium uptake. Plant Physiol. 44, 1233–1240 (1969).
Pitman, M.G.: Uptake and transport of ions in barley seedlings. III. Correlation between transport to the shoot and relative growth rate. Australian J. Biol. Sci. 25, 905–919 (1972).
Pitman, M.G., Cram, W.J.: Regulation of inorganic ion transport in plants In: Ion transport in plants (W.P. Anderson, ed.), p. 465–481. New York-London: Academic Press 1973.
Pitman, M.G., Lüttge, U., Läuchli, A., Ball, E.: Action of abscisic acid on ion transport as affected by root temperature and nutrient status. J. Exptl. Bot. 25, 147–155 (1974).
Pitman, M.G., Mowat, J., Nair, H.: Interactions of processes for accumulation of salt and sugar in barley plants. Australian J. Biol. Sci. 24, 619–631 (1971).
Pitman, M.G., Schaefer, W., Wildes, R.A.: Effect of abscisic acid on fluxes of ions in barley roots. In: Membrane transport in plants (U. Zimmermann, J. Dainty, eds.), p. 391–396. Berlin-Heidelberg-New York: Springer 1974b.
Pohl, R.: Ein Beitrag zur Analyse des Streckungswachstums der Pflanzen. Planta 36, 230–261 (1948).
Pohl, R.: Die Wirkung der Wuchsstoffe auf das Plasma. In: Encyclopedia of plant physiology (W. Ruhland, ed.), vol. XIV, p. 729–742. Berlin-Heidelberg-New York: Springer 1961a.
Pohl, R.: Wuchsstoffe und Wasseraufnahme. In: Encyclopedia of plant physiology (W. Ruhland, ed.), vol. XIV, p. 743–753. Berlin-Heidelberg-New York: Springer 1961b.
Pollard, C.J.: Influence of gibberellic acid on the incorporation of 8–14C adenine into adeno-sine,-3′,5′-cyclic phosphate in barley aleurone layers. Biochim. Biophys. Acta 201, 511–512 (1970).
Rollard, C.J.: Rapid gibberellin responses and the action of adenosine 3′,5′-monophosphate in aleurone layers. Biochim. Biophys. Acta 252, 553–560 (1971).
Power, J.B., Cocking, E.C.: Isolation of leaf protoplasts: macromolecule uptake and growth substance response. J. Exptl. Bot. 21, 64–70 (1970).
Pratt, H.K., Goeschl, J.D.: Physiological roles of ethylene in plants. Ann. Rev. Plant Physiol. 20, 541–584 (1969).
Pressman, B.C.: Ionophorous antibiotics as models for biological transport. Federation Proc. 27, 1283–1288 (1968).
Pressman, B.C.: Properties of ionophores with broad range cation selectivity. Federation Proc. 32, 1698–1703 (1973).
Pressman, B.C., Harris, E.J., Jagger, W.S., Johnson, J.H.: Antibiotic-mediated transport of alkali ions across lipid barriers. Proc. Natl. Acad. Sci. U.S. 58, 1949–1956 (1967).
Pringle, R.B., Braun, A.C.: The isolation of the toxin of Helminthosporium victoriae. Phytopathology 47, 369–371 (1957).
Quail, P.H.: Particle-bound phytochrome: spectral properties of bound and unbound fractions. Planta 118, 345–355 (1974a).
Quail, P.H.: In-vitro binding of phytochrome to a particulate fraction: a function of light dose and steady-state Pfr level. Planta 118, 357–360 (1974b).
Quail, P.H., Marmé, D., Schäfer, E.: Particle-bound phytochrome from maize and pumpkin. Nature New Biol. 245, 189–191 (1973).
Quail, P.H., Schäfer, E.: Particle-bound phytochrome: a function of light dose and steady-state level of the far-red-absorbing form. J. Membrane Biol. 15, 393–404 (1974).
Racusen, R.H.: Membrane protein conformational changes as a mechanism for the phyto-chrome-induced fixed charge reversal in root cap cells of mung bean. Plant Physiol., Suppl. 51, 51 (1973).
Racusen, R.H., Etherton, B.: The role of root cap cell fixed charges in phytochrome mediated mung bean root tip adherence phenomena. Plant Physiol., Suppl. 51, 51 (1973).
Rains, D.W.: Sodium and potassium absorption by bean stem tissue. Plant Physiol. 44, 547–554 (1969).
Raschke, K., Fellows, M.P.: Stomatal movement in Zea Mays: Shuttle of potassium and chloride between guard cells and subsidiary cells. Planta 101, 296–316 (1971).
Raschke, K., Humble, G.D.: No uptake of anions required by opening stomata of Vicia faba: guard cells release hydrogen ions. Planta 115, 47–57 (1973).
Rayle, D.L.: Auxin-induced hydrogen-ion secretion in Avena coleoptiles and its implications. Planta 114, 63–73 (1973).
Rayle, D.L., Johnson, K.D.: Direct evidence that auxin-induced growth is related to hydrogen ion secretion. Plant Physiol., Suppl. 51, 2 (1973).
Raymond, P., Narayanan, A., Pradet, A.: Evidence for the presence of 3′,5′-cyclic AMP in plant tissues. Biochem. Biophys. Res. Commun. 53, 1115–1121 (1973).
Reed, N.R., Bonner, B.A.: The effect of abscisic acid on the uptake of potassium and chloride into Avena coleoptile sections. Planta 116, 173–185 (1974).
Reed, P.W., Lardy, H.A.: A23187: a divalent cation ionophore. J. Biol. Chem. 247, 6970–6977 (1972).
Reinhold, L.: Release of ammonia by plant tissues treated with indole-3-acetic acid. Nature 182, 1022 (1958).
Reinhold, L., Ganot, D.: Asymmetric “acid growth” response following gravistimulus. In: Plant growth substances, 1970 (D.J. Carr, ed.), p. 725–730. Berlin-Heidelberg-New York: Springer 1972.
Reinhold, L., Glinka, Z.: Reduction in turgor pressure as a result of extremely brief exposure to CO2. Plant Physiol. 41, 39–44 (1966).
Reinhold, L., Sachs, T., Vislovska, L.: The role of auxin in thigmotropism In: Plant growth substances, 1970 (D.J. Carr, ed.), p. 731–737. Berlin-Heidelberg-New York: Springer 1972.
Rivenbark, W.L., Hanson, J.B.: The uncoupling of oxidative phosphorylation by basic proteins and its reversal with potassium. Biochem. Biophys. Res. Commun. 7, 318–321 (1962).
Robison, G.A., Butcher, R.W., Sutherland, E.W.: Cyclic AMP. New York-London: Academic Press 1971.
Rubery, P.H., Sheldrake, A.R.: Effect of pH and surface charge on cell uptake of auxin. Nature New Biol. 244, 285–288 (1973).
Rubinstein, B.: Auxin stimulated ion uptake into coleoptile sections. Plant Physiol., Suppl. 51, 3 (1973).
Rubinstein, B., Light, E.N.: Indole acetic acid-enhanced chloride uptake into coleoptile cells. Planta 110, 43–56 (1973).
Sacher, J.A.: Relationship between auxin and membrane integrity in tissue senescence and abscission. Science 125, 1199–1200 (1957).
Sacher, J.A.: Relations between changes in membrane permeability and the climacteric in banana and avocado. Nature 195, 577–578 (1962).
Sacher, J.A., Salminen, S.O.: Comparative studies of effect of auxin and ethylene on permeability and synthesis of RNA and protein. Plant Physiol. 44, 1371–1377 (1969).
Santarius, K.A.: Das Verhalten von CO2-Assimilation, NADP- und PGS-Reduktion und ATP-Synthese intakter Blattzellen in Abhängigkeit vom Wassergehalt. Planta 73, 228–242 (1967).
Santarius, K.A., Ernst, R.: Das Verhalten von Hill-Reaktion und Photophosphorylierung isolierter Chloroplasten in Abhängigkeit vom Wassergehalt. I. Wasserentzug mittels konzentrierter Lösungen. Planta 73, 91–108 (1967).
Satter, R.L., Galston, A.W.: Potassium flux: a common feature of Albizzia leaflet movement controlled by phytochrome or endogenous rhythm. Science 174, 518–520 (1971a).
Satter, R.L., Galston, A.W.: Phytochrome-controlled nyctinasty in Albizzia julibrissin. III Interaction between an endogenous rhythm and phytochrome in control of potassium flux and leaflet movement. Plant Physiol. 48, 740–746 (1971 b).
Satter, R.L., Marinoff, P., Galston, A.W.: Phytochrome controlled nyctonasty in Albizzia julibrissin. II Potassium fluxes as a basis for leaflet movement. Amer. J. Bot. 57, 916–926 (1970).
Schaefer, N., Wildes, R.A., Pitman, M.G.: Inhibition by p-fluorophenylalanine of protein synthesis and transport of ions across the roots of barley seedlings. Australian J. Plant Physiol. 2, 61–73 (1975).
Scheffer, R.P., Pringle, R.B.: Respiratory effects of the selective toxin of Helminthosporium victoriae. Phytopathology 53, 465–468 (1963).
Scott, B.I.H.: Electric oscillations generated by plant roots and a possible feedback mechanism responsible for them. Australian J. Biol. Sci. 10, 164–179 (1957).
Scott, B.I.H., Martin, D.W.: Bioelectric fields of bean roots and their relation to salt accumulation. Australian J. Biol. Sci. 15, 83–100 (1962).
Scott, P.C., Leopold, A.C.: Opposing effects of gibberellin and ethylene. Plant Physiol. 42, 1021–1022 (1967).
Sears, D.F., Eisenberg, R.M.: A model representing a physiological role of CO2 at the cell membrane. J. Gen. Physiol. 44, 869–887 (1961).
Siegel, S.M.: Further studies on regulation of betacyanin efflux from beetroot tissue: Ca-ion reversible effects of hydrochloric acid and ammonia water. Physiol. Plantarum 23, 251–257 (1970).
Siegel, S.M., Daly, O.: Regulation of betacyanin efflux from beetroot by poly-L-lysine, Ca-ion and other substances. Plant Physiol. 41, 1429–1438 (1966).
Singh, T.N., Paleg, L.G., Aspinall, D.: Stress metabolism. I Nitrogen metabolism and growth in the barley plant during water stress. Australian J. Biol. Sci. 26, 45–56 (1973).
Skoog, F., Armstrong, D.J.: Cytokinins. Ann. Rev. Plant Physiol. 21, 359–384 (1970).
Slayman, C.L., van Etten, H.: Are certain pterocarpanoid phytoalexins and steroid hormones inhibitors of membrane ATP-ase? Plant Physiol., Suppl. 53, 24 (1974).
Solomon, D., Mascarenkas, J.P.: Auxin-induced synthesis of cyclic 3′,5′-adenosine monophosphate in Avena coleoptiles. Life Sci. 10, 879–885 (1971).
Solomos, T., Laties, G.G.: Diversion of respiratory electrons by ethylene to the cyanide-resistant path. Plant Physiol, Suppl. 53, 72 (1974).
Spear, D.G., Barr, J.K., Barr, C.E.: Localization of hydrogen ion and chloride ion fluxes in Nitella. J. Gen. Physiol. 54, 397–414 (1969).
Squire, G.R., Mansfield, T.A.: Studies of the mechanism of action of fusicoccin, the fungal toxin that induces wilting, and its interaction with abscisic acid. Planta 105, 71–78 (1972).
Squire, G.R., Mansfield, T.A.: The action of fusicoccin on stomatal guard cells and subsidiary cells. New Phytologist 73, 433–440 (1974).
Steveninck, R.F.M. van: The lag phase in ion uptake by plant tissues. PhD Thesis, University of London (1961).
Steveninck, R.F.M. van: Effect of indolyl-3-acetic acid on the permeability of membranes in storage tissue. Nature 205, 83–84 (1965).
Steveninck, R.F.M. van: Further aspects of the tris effect in beetroot tissue during its lag phase. Australian J. Biol. Sic. 19, 283–290 (1966).
Steveninck, R.F.M. van: Inhibition of the development of a cation accumulating system and of tris-induced uptake in storage tissues by N6-benzyladenine and kinetin. Physiol. Plantarum 27, 43–47 (1972a).
Steveninck, R.F.M. van: Abscisic acid stimulation of ion transport and alteration in K+/Na + selectivity. Z. Pflanzenphysiol. 67, 282–286 (1972b).
Steveninck, R.F.M. van: Hormonal regulation of ion transport in parenchyma tissue. In: Membrane transport in plants (U. Zimmermann, J. Dainty, eds.), p. 450–456. Berlin-Heidelberg-New York: Springer 1974.
Steveninck, R.F.M. van: The “washing” or “aging” phenomenon in plant tissues. Ann. Rev. Plant Physiol. 26, 237–258 (1975).
Steveninck, R.F.M. van, Chenoweth, A.R.F.: Ultrastructural localization of ions. I. Effect of high external sodium chloride concentration on the apparent distribution of chloride in leaf parenchyma cells of barley seedlings. Australian J. Biol. Sci. 25, 499–516 (1972).
Steveninck, R.F.M. van, Steveninck, M.E. van: Effect of inhibitors of protein and nucleic acid synthesis on the development of ion uptake mechanisms in beetroot slices (Beta vulgaris). Physiol. Plantarum 27, 407–411 (1972).
Strugger, S.: Die Beeinflussung des Wachstums und des Geotropismus durch die Wasserstoffionen. Ber. Deut. Bot. Ges. (Anhang) 50, 77–92 (1932).
Tagawa, T., Bonner, J.: Mechanical properties of the Avena coleoptile as related to auxin and to ionic interactions. Plant Physiol. 32, 207–212 (1957).
Tal, M., Imber, D.: Abnormal stomatal behavior and hormonal imbalance in flacca, a wilty mutant of tomato. II Auxin and abscisic acid-like activity. Plant Physiol. 46, 373–376 (1970).
Tal, M., Imber, D.: Abnormal stomatal behavior and hormonal imbalance in flacca, a wilty mutant of tomato. III Hormonal effects on the water status in the plant. Plant Physiol. 47, 849–850(1971).
Tanada, T.: Localization and mechanism of calcium stimulation of rubidium absorption in the mung bean root. Amer. J. Bot. 49, 1068–1072 (1963).
Tanada, T.: A rapid photo reversible response of barley root tips in the presence of 3-indole acetic acid. Proc. Natl. Acad. Sci. U.S. 59, 376–380 (1968).
Tanada, T.: Indole-acetic acid and abscisic acid antagonism. I On the phytochrome-mediated attachment of mung bean root tips on glass. Plant Physiol. 51, 150–153 (1973).
Tasseron-De Jong, J.G., Veldstra, H.: Investigations on cytokinins. I. Effect of 6-benzyl-aminopurine on growth and starch content of Lemna minor. Physiol. Plantarum 24, 235–238 (1971).
Thimann, K.V.: The natural plant hormones. In: Plant physiology. A treatise (F.C. Steward, ed.), vol. VI B, p. 3–332. New York-London: Academic Press 1972.
Tillberg, J.-E.: Effects of the inhibitor ß-complex on photosynthetic activities in chloroplasts. Z. Pflanzenphysiol. 59, 305–308 (1968).
Timberlake, W.E., Griffin, D.H.: Direct inhibition of the uptake of proline by cycloheximide. Biochem. Biophys. Res. Commun. 54, 216–221 (1973).
Tuli, V., Dilley, D.R., Wittwer, S.H.: N6-benzyladenine: inhibitor of respiratory kinases. Science 146, 1477–1479 (1964).
Turner, N.C.: K+ uptake of guard cells stimulated by fusicoccin. Nature 235, 341–342 (1972).
Turner, N.C., Graniti, A.: Fusicoccin: a fungal toxin that opens stomata. Nature 223, 1070–1071 (1969).
Tyree, M.T.: The symplast concept. A general theory of symplastic transport according to the thermodynamics of irreversible processes. J. Theoret. Biol. 26, 181–214 (1970).
Url, W.G.: The site of penetration resistance to water in plant protoplasts Protoplasma 72, 427–447 (1971).
Vaadia, Y., Itai, C.: Interrelationships of growth with reference to the distribution of growth substances. In: Root growth (W.J. Whittington, ed.), p. 65–79. London: Butterworths 1969.
Valdovinos, J.G., Ernest, L.C., Henry, E.W.: Effect of ethylene and gibberellic acid on auxin synthesis in plant tissues. Plant Physiol. 42, 1803–1806 (1967).
Waisel, J.: The effect of Ca on the uptake of monovalent ions by excised barley roots. Physiol. Plantarum 15, 709–724 (1962).
Wanless, I.R., Bryniak, W., Fensom, D.S.: The effect of some growth regulating compounds upon electro-osmotic measurements, transcellular water flow, and Na+, K+ and Cl- influx in Nitella flexilis. Canad. J. Bot. 51, 1055–1070 (1973).
Weigl, J.: Efflux und Transport von Cl- und Rb+ in Maiswurzeln. Wirkung von Außenkonzentration, Ca+ +, EDTA und IES. Planta 84, 311–323 (1969a).
Weigl, J.: Einbau von Auxin in gequollene Lecithin-Lamellen. Z. Naturforsch. 24b, 365–366 (1969b).
Weigl, J.: Specificität der Wechselwirkung zwischen Wuchsstoffen und Lecithin. Z. Naturforsch. 24b, 367–368 (1969c).
Weisenseel, M., Schmeibidl, E.: Phytochrome controls the water permeability in Mougeotia. Z. Pflanzenphysiol. 70, 420–431 (1973).
Wellburn, A.R., Ashby, J.P., Wellburn, F.A.M.: Occurrence and biosynthesis of adenosine 3′,5′-cyclic phosphate in isolated Avena etioplasts. Biochim. Biophys. Acta 320, 363–371 (1973).
Wheeler, H., Black, H.S.: Changes in permeability induced by victorin. Science 137, 983–984 (1962).
Wheeler, H., Black, H.S.: Effects of Helminthosporium victoriae and victorin upon permeability. Amer. J. Bot. 50, 686–693 (1963).
Wilkins, M.B., Woodcock, A.E.R.: Origin of the geoelectric effect in plants. Nature 208, 990–992 (1965).
Wong, D.T., Wilkinson, J.R., Hamill, R.L., Horng, J-S.: Effects of antibiotic ionphore, A23187, on oxidative phosphorylation and calcium transport of liver mitochondria. Arch. Biochem. Biophys. 156, 578–585 (1973).
Wood, A., Paleg, L.G.: The influence of gibberellic acid on the permeability of model membrane systems. Plant Physiol. 50, 103–108 (1972).
Wood, A., Paleg, L.G.: Alteration of liposomal membrane fluidity by gibberellic acid. Australian J. Plant Physiol. 1, 31–40 (1974).
Wood, A., Paleg, L.G., Spotswood, T.M.: Hormone-phospholipid interaction: a possible mechanism of action in the control of membrane permeability. Australian Plant Physiol. 1, 167–169(1974).
Wright, S.T.C.: Growth and cellular differentiation in the wheat coleoptile (Triticum vulgare). II Factors influencing the growth response to gibberellic acid, kinetin and indolyl-3-acetic acid. J. Exptl. Bot. 17, 165–176 (1966).
Yoder, O.C., Scheffer, R.P.: Effects of Helminthosporium carbonum toxin on absorption of solutes by corn roots. Plant Physiol. 52, 518–523 (1973).
Young, M., Sims, A.P.: The potassium relations of Lemna minor L. II. The mechanism of potassium uptake. J. Exptl. Bot. 24, 317–327 (1973).
Yunghans, H., Jaffe, M.J.: Phytochrome controlled adhesion of mung bean root tips to glass: a detailed characterization of the phenomenon. Physiol. Plantarum 23, 1004–1016 (1970).
Yunghans, H., Jaffe, M.J.: Rapid respiratory changes due to red light or acetyl choline during the early events of phytochrome-mediated photomorphogenesis. Plant Physiol. 49, 1–7 (1972).
Ziegler, H., Lüttge, U.: Die Salzdrüsen von Limonium vulgare. II. Mitteilung. Die Lokalisierung des Chlorids. Planta 74, 1–17 (1967).
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1976 Springer-Verlag Berlin · Heidelberg
About this chapter
Cite this chapter
Van Steveninck, R.F.M. (1976). Effect of Hormones and Related Substances on Ion Transport. In: Lüttge, U., Pitman, M.G. (eds) Transport in Plants II. Encyclopedia of Plant Physiology, vol 2 / B. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-66230-0_7
Download citation
DOI: https://doi.org/10.1007/978-3-642-66230-0_7
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-66232-4
Online ISBN: 978-3-642-66230-0
eBook Packages: Springer Book Archive