SEARCH

SEARCH BY CITATION

REFERENCES

  • Abeles F.B., Morgan P.W., Saltveit M.E.Jr (1992) Ethylene in Plant Biology, 2nd edn. Academic Press, San Diego, CA.
  • Assmann S.M. & Shimazaki K. (1999) The multisensory guard cell. Stomatal responses to blue light and abscisic acid. Plant Physiology 119, 809 816.
  • Bacon M.A., Wilkinson S., Davies W.J. (1998) pH-regulated leaf cell expansion in droughted plants is abscisic acid-dependent. Plant Physiology 118, 1507 1515.
  • Baunsgaard L., Fuglsang A.T., Jahn T., Korthout H.A., de Boer A.H., Palmgren M.G. (1998) The 14-3-3 proteins associate with the plant plasma membrane H (+) -ATPase to generate a fusicoccin binding complex and a fusicoccin responsive system. Plant Journal 13, 661 671.
  • Becraft P.W. (1999) Development of the leaf epidermis. Current Topics in Developmental Biology 45, 1 40.
  • Blum D.E., Elzenga J.T.M., Linnemeyer P.A., Van Volkenburgh E. (1992) Stimulation of growth and ion uptake in bean leaves by red and blue light. Plant Physiolology 100, 1968 1975.
  • Blum D.E., Neff M.M., Van Volkenburgh E. (1994) Light-stimulated cotyledon expansion in the blu3 and hy4 mutants of Arabidopsis thaliana. Plant Physiology 105, 1433 1436.
  • Bogoslavsky L. & Neumann P.M. (1998) Rapid regulation by acid pH of cell wall adjustment and leaf growth in maize plants responding to reversal of water stress. Plant Physiology 118, 701 709.
  • Bohmert K., Camus I., Bellini C., Bouchez D., Caboche M., Benning C. (1998) AGO1 defines a novel locus of Arabidopsis controlling leaf development. EMBO Journal 17, 170 180.
  • Bossen M.E., Dassen H.H.A., Kendrick R.E., Vredenberg W.J. (1988) The role of calcium ions in phytochrome-controlled swelling of etiolated wheat (Triticium aestivum l.) protoplasts. Planta 174, 94 100.
  • Boyer J.S. (1968) Relationship of water potential to growth of leaves. Plant Physiology 43, 1056 1062.
  • Boyer J.S. (1970) Leaf enlargement and metabolic rates in corn, soybean, and sunflower at various leaf water potentials. Plant Physiology 46, 233 235.
  • Brock T.G. & Cleland R.E. (1989) Role of acid efflux during growth promotion of primary leaves of Phaseolus vulgaris L. by hormones and light. Planta 177, 476 482.
  • Brock T.G. & Kaufman P.B. (1990) Movement in grass shoots. In The Pulvinus: Motor Organ for Leaf Movement (eds R.L. Satter, H.L. Gorton & T.C. Vogelmann), pp. 59 71. American Society of Plant Physiologists, Rockville MD.
  • Chapin F.S. (1991) Integrated responses of plants to stress. Bioscience 41, 29 36.
  • Cho M.H. & Spalding E.P. (1996) An anion channel in Arabidopsis hypocotyls activated by blue light. Proceedings of the National Academy of Sciences USA 93, 8134 8138.
  • Chory J. (1992) A genetic model for light-regulated seedling development in Arabidopsis. Development 115, 337 354.
  • Chory J. & Li J. (1997) Gibberellins, brassinosteriods and light-regulated development. Plant, Cell and Environment 20, 801 806.
  • Cleland R.E. (1964) The role of endogenous auxin in the elongation of Avena leaf sections. Physiologia Plantarum 17, 126 135.
  • Cleland R.E., Cosgrove D., Tepfer M. (1983) Characterization of the in vitro acid extension curves of Avena coleoptiles. Planta 170, 379 385.
  • Cosgrove D.J. (1981) Analysis of the dynamic and steady-state responses of growth rate and turgor pressure to changes in cell parameters. Plant Physiology 68, 1439 1446.
  • Cosgrove D.J. (1997) Relaxation in a high-stress environment: the molecular bases of extensible cell walls and cell enlargement. Plant Cell 9, 1031 1041.
  • Cosgrove D.J. (1998) Cell wall loosening by expansins. Plant Physiology 118, 333 339.
  • Cosgrove D.J. & Cleland R.E. (1983) Solutes in the free space of growing stem tissues. Plant Physiology 72, 326 331.
  • Dale J.E. (1988) The control of leaf expansion. Annual Review of Plant Physiology and Plant Molecular Biology 39, 267 295.
  • De Greef J.A., Caubergs R., Verbelen J.P., Moereels E. (1978) Phytochrome-mediated inter-organ dependence and rapid transmission of the light stimulus. In: Light and Plant Development (ed. H.H. Smith), pp. 295 315 Butterworths, London.
  • Downs R.J. (1955) Photoreversibility of leaf and hypocotyl elongation of dark-grown red kidney bean seedlings. Plant Physiology 30, 468 475.
  • Dudley S. & Schmitt J. (1995) Genetic differentiation in morphological responses to simulated foliage shade between populations of Impatiens capensis from open and woodland sites. Functional Ecology 9, 655 666.
  • Elzenga J.T.M. (1997) Kinetic properties of blue light pulse-induced acidification by leaf epidermal cells of pea. Plant Physiology 144, 1474.
  • Elzenga J.T.M. & Van Volkenburgh E. (1994) Characterization of ion channels in the plasma membrane of epidermal cells of expanding pea (Pisum sativum arg) leaves. Journal of Membrane Biology 137, 227 235.
  • Elzenga J.T.M. & Van Volkenburgh E. (1997a) Kinetics of Ca2+− and ATP-dependent, voltage-controlled anion conductance in the plasma membrane of mesophyll cells of Pisum sativum. Planta 201, 415 423.
  • Elzenga J.T.M. & Van Volkenburgh E. (1997b) Characterization of a light-controlled anion channel in the plasmamembrane of mesophyll cells of pea. Plant Physiology 113, 1419 1426.
  • Elzenga J.T.M., Prins H.B.A., Van Volkenburgh E. (1995) Light-induced membrane potential changes of epidermal and mesophyll cells in growing leaves of Pisum sativum. Planta 197, 127 134.
  • Elzenga J.T.M., Staal M., Prins H.B.A. (1997) Calcium-calmodulin signalling is involved in light-induced acidification by epidermal leaf cells of pea, Pisum sativum L. Journal of Experimental Botany 48, 2055 2060.
  • Engelke A. L., Hamzi H.Q., Skoog F. (1973) Cytokinin-gibberellin regulation of shoot development and leaf form in tobacco plantlets. American Journal of Botany 60, 491 495.
  • Ermolayeva E., Sanders D., Johannes E. (1997) Ionic mechanism and role of phytochrome-mediated membrane depolarisation in caulonemal side branch initial formation in the moss Physcomitrella patens. Planta 201, 109 118.
  • Fleming A.J., McQueen-Mason S., Mandel T., Kuhlemeier C. (1997) Induction of leaf primordia by the cell wall protein expansin. Science 276, 1415 1418.
  • Francis D. (1998) The cell cycle and plant growth. In Inherent Variation in Plant Growth Physiological Mechganisms and Ecological Consequences (eds H. Lambers, H. Poorter & M.M.I. Van Vuuren), pp. 5 20. Backhuys Publishers, Leiden, The Netherlands.
  • Fricke W., Leigh R.A., Tomos A.D. (1994) Concentration oforganic and organic solutes in extracts of individual epidermal, mesophyll, and bundle-sheath cells. Planta 192, 310 316.
  • Fry S.C., Smith R.C., Renwick K.F., Martin D.J., Hodge S.K., Matthews K.J. (1992) Xyloglucan endotransglycosylase, a new wall-loosening enzyme activity from plants. Biochemical Journal 282, 821 828.
  • Goliber T., Kessler S., Chen J.J., Bharathan G., Sinha N. (1999) Genetic, molecular, and morphological analysis of compound leaf development. Current Topics in Developmental Biology 43, 259 290.
  • Granier C. & Tardieu F. (1998) Spatial and temporal analyses of expansion and cell cycle in sunflower leaves. Plant Physiology 116, 991 1001.
  • Green P.B. (1986) Plasticity in shoot development: a biophysical view. Symposia of the Society of Experimental Biology 40, 211 232.
  • Hayes A.B. (1977) Developmental aspects of leaf blade hyponasty. Botanical Gazette 138, 52 55.
  • Hoch H.C., Pratt C., Marx G.A. (1980) Subepidermal air spaces: basis for the phenotypic expression of the argenteum mutant of Pisum. American Journal of Botany 67, 905 911.
  • Howe G.T., Davis J., Frewen B., Sarul P., Jekni Z., Bradshaw Jr H.D., Chen T.H.H. (1998) Molecular genetic approaches for studying endodormancy in trees: model systems using species and hybrids of Populus. Hortscience in press.
  • Hsiao T.C. (1973) Plant responses to water stress. Annual Review of Plant Physiology 24, 519 570.
  • Humphries E.C. & Wheeler A.W. (1963) The physiology of leaf growth. Annual Review of Plant Physiology 14, 385 410.
  • Husken D., Steudle E., Zimmermann U. (1978) Pressure probe technique for measuring water relations of cells in higher plants. Plant Physiology 61, 158 163.
  • Jeffree C.E., Dale J.E., Fry S.C. (1986) The genesis of intercellular spaces in developing leaves of Phaseolus vulgaris L. Protoplasma 1332, 90 98.
  • Jones A.M., Im K.-H., Savka M.A., Wu M.-J., DeWitt N.G., Shillito R., Binns A.N. (1998) Auxin-dependent cell expansion mediated by overexpressed auxin-binding protein 1. Science 282, 1114 1117.
  • Karpinski S., Reynolds H., Karpinska B., Wingsle G., Creissen G., Mullineaux P. (1999) Systemic signaling and acclimation in response to excess excitation energy in Arabidopsis. Science 284, 654 657.
  • Keller E. & Cosgrove D.J. (1995) Expansins in growing tomato leaves. Plant Journal of 8, 795 802.
  • Keller C.P. & Van Volkenburgh E. (1996a) The electrical response of Avena coleoptile cortex to auxins. Evidence in vivo for activation of a Cl- conductance. Planta 198, 404 412.
  • Keller C.P. & Van Volkenburgh E. (1996b) Osmoregulation by oat coleoptile protoplasts. Effect of auxin. Plant Physiology 110, 1007 1016.
  • Keller C.P. & Van Volkenburgh E. (1997) Auxin-induced epinasty of tobacco leaf tissues. A non-ethylene-mediated response. Plant Physiology 113, 603 610.
  • Keller C.P. & Van Volkenburgh E. (1998) Evidence that auxin-induced growth of tobacco leaf tissues does not involve cell wall acidification. Plant Physiology 118, 557 564.
  • Kim H.Y., Cote G.G., Crain R.C. (1993) Potassium channels in Samanea saman protoplasts controlled by phytochrome and the biological clock. Science 260, 960 962.
  • Kim G.T., Tsukaya H., Uchimiya H. (1998a) The CURLY LEAF gene controls both division and elongation of cells during the expansion of the leaf blade in Arabidopsis thaliana. Planta 206, 175 183.
  • Kim G.T., Tsukaya H., Uchimiya H. (1998b) The ROTUNDIFOLIA3 gene of Arabidopsis thaliana encodes a new member of the cytochrome P-450 family that is required for the regulated polar elongation of leaf cells. Genes and Development 12, 2381 2391.
  • Lambers H., Poorter H., Van Vuuren M.M.I. (1998) Inherent Variation in Plant Growth. Backhuys Publishers, Leiden, The Netherlands.
  • Lin C., Yang H., Guo H., Mockler T., Chen J., Cashmore A.R. (1998) Enhancement of blue-light sensitivity of Arabidopsis seedlings by a blue light receptor cryptochrome 2. Proceedings of the National Academy of Sciences USA 95, 2686 2690.
  • Linnemeyer P., Van Volkenburgh E., Cleland R.E. (1990) Characterization and effect of light on the plasma membrane H+-ATPase of bean leaves. Plant Physiology 94, 1671 1676.
  • Lockhart J.A. (1965) An analysis of irreversible plant cell elongation. Journal of Theoretical Biology 8, 264 275.
  • Maksymowych R. (1973) Analysis of Leaf Development. Cambridge University Press, Cambridge.
  • Michelena V.A. & Boyer J.S. (1982) Complete turgor maintenance at low water potentials in the elongating region of maize leaves. Plant Physiology 69, 1145 1149.
  • Nagel O.W. (1998) Growth rate and biomass partitioning of hormone mutants in tomato (Solanum lycopersicum l.) . PhD Thesis, Utrecht University, The Netherlands.
  • Neff M.M. & Van Volkenburgh E. (1994) Light-stimulated cotyledon expansion in Arabidopsis seedlings. The role of phytochrome B. Plant Physiology 104, 1027 1032.
  • Neumann P.M. (1995) The role of cell wall adjustment in plant resistance to water deficits. Crop Science 35, 1258 1266.
  • Passioura J.B. & Fry S.C. (1992) Turgor and cell expansion: beyond the Lockhart equation. Australian Journal of Plant Physiology 19, 565 576.
  • Poorter H. & van der Werf A. (1998) Is inherent variation in RGR determined by LAR at low irradiance and by NAR at high arradiance? A review of herbaceous species. In Physiological Mechanisms and Ecological Consequences (eds H. Lambers, H. Poorter & M.M.I. Van Vuuren), pp. 309 336. Backhuys Publishers, Leiden, The Netherlands.
  • Purugganan M.M., Braam J., Fry S.C. (1997) The Arabidopsis TCH4 xyloglucan endotransglycosylase. Substrate specificity, pH optimum, and cold tolerance. Plant Physiology 115, 181 190.
  • Pyke K.A., Rutherford S.M., Robertson E.J., Leech R.M. (1994) arc6, A fertile Arabidopsis mutant with only two mesophyll cell chloroplasts. Plant Physiology 106, 1169 1177.
  • Ranasinghe C.S. & Taylor G. (1996) Mechanism for increased leaf growth in elevated CO2. Journal of Experimental Botany 47, 349 358.
  • Ray P.M. (1987) Principles of plant cell expansion. In: Physiology of Cell Expansion During Plant Growth (eds D.J. Cosgrove & D.P. Knievel), pp. 1 17. The American Society of Plant Physiologists, Rockville MD.
  • Rayle D.L. & Cleland R.E. (1992) The acid growth theory of auxin-induced cell elongation is alive and well. Plant Physiology 99, 1271 1274.
  • Robson P.R.H., Whitelam G.C., Smith H. (1993) Selected components of the shade-avoidance syndrome are displayed in a normal manner in mutants of Arabidopsis thaliana and Brassical rapa deficient in phytochrome B. Plant Physiology 102, 1179 1184.
  • Ross J.J., Murfet I.C., Reid J.B. (1993) Distribution of gibberellins in Lathyrus odoratus L. and their role in leaf growth. Plant Physiology 102, 603 608.
  • Satter R.L. (1990) Leaf movements: an overview of the field. In: The Pulvinus: Motor Organ for Leaf Movement (eds R.L. Satter, H.L. Gorton & T.C. Vogelmann), pp. 1 9. American Society of Plant Physiologists, Rockville MD.
  • Schmitt J. (1997) Is photomorphogenic shade avoidance adaptive? Perspectives from population biology. Plant, Cell and Environment 20, 826 830.
  • Schmitt J., McCormac A.C., Smith H. (1995) A test of the adaptive plasticity hypothesis using transgenic and mutant plants disabled in phytochrome-mediated elongation responses to neighbours. American Naturalist 146, 937 953.
  • Schmulling T., Schell J., Spena A. (1988) Single genes from Agrobacterium rhizogenes influence plant development. EMBO Journal 7, 2621 2629.
  • Shabala S. & Newman I. (1999) Light-induced changes in hydrogen, calcium, potassium, and chloride ion fluxes and concentrations from the mesophyll and epidermal tissues of bean leaves. Understanding the ionic basis of light-induced bioelectrogenesis. Plant Physiology 119, 1115 1124.
  • Shackel K.A., Matthews M.A., Morrison J.C. (1987) Dynamic relation between expansion and cellular turgor in growing grape (Vitis vinifera l.) leaves. Plant Physiology 84, 1166 1171.
  • Simons P. (1992) The Action Plant. Movement and Nervous Behavior in Plants. Blackwell, Oxford UK.
  • Smith H. (1982) Light quality, photoperception, and plant strategy. Annual Review of Plant Physiology 33, 481 518.
  • Smith H. (1995) Physiological and ecological function within the phytochrome family. Annual Review of Plant Physiology and Plant Molecular Biology 46, 289 315.
  • Smith L.G., Hake S., Sylvester A.W. (1996) The tangled-1 mutation alters cell division orientations throughout maize leaf development without altering leaf shape. Development 122, 481 489.
  • Smith H. & Whitelam G.C. (1997) The shade avoidance syndrome: multiple responses mediated by multiple phytochromes. Plant, Cell and Environment 20, 840 844.
  • Staal M., Elzenga J.T.M., Van Elk A.G., Prins H.B.A., Van Volkenburgh E. (1994) Red and blue light-stimulated proton efflux by epidermal leaf cells of the Argenteum mutant of Pisum sativum. Journal of Experimental Botany 45, 1213 1218.
  • Stahlberg R. & Van Volkenburgh E. (1999) The effect of light on membrane potential, apoplastic pH and cell expansion in leaves of Pisum sativum l. var. Argenteum. Role of PM H+-ATPase and photosynthesis. Planta 208, 188 195.
  • Staub J.M. & Deng X.W. (1996) Light signal transduction in plants. Photochemistry and Photobiology 64, 897 905.
  • Talbert P.B., Adler H.T., Parks D.W., Comai L. (1995) The REVOLUTA gene is necessary for apical meristem development and for limiting cell divisions in the leaves and stems of Arabidopsis thaliana. Development 121, 2723 2735.
  • Taylor G., Gardner S.D.L., Bosac C., Flowers T.J., Crookshanks M., Dolan L. (1995) Effects of elevated CO2 on cellular mechanisms, growth and development of trees with particular reference to hybrid poplar. Forestry 68, 379 390.
  • Thiel G. & Battey N. (1998) Exocytosis in plants. Plant Molecular Biology 38, 111 125.
  • Tsukaya H. (1995) Developmental genetics of leaf morphogenesis in dicotyledonous plants. Journal of Plant Research 108, 407 416.
  • Tsukaya H. & Uchimiya H. (1997) Genetic analyses of the formation of the serrated margin of leaf blades in Arabidopsis: combination of a mutational analysis with the characterization of a specific marker gene expressed in hydathodes and stipules. Molecular and General Genetics 256, 231 238.
  • Tsukaya H., Tsuge T., Uchimiya H. (1994) The cotyledon: a superior system for studies of leaf development. Planta 195, 309 312.
  • Van Staden J. & Carmi A. (1982) The effect of decapitation on the distribution of cytokinins and growth of Phaseolus vulgaris plants. Physiologia Plantarum 55, 39.
  • Van Volkenburgh E. (1994) Leaf and shoot growth. In Physiology and Determination of Crop Yield (eds K.J. Boote, J.M. Bennett, T.R. Sinclair & G.M. Paulsen), pp. 101 120. American Society of Agronomy, Inc., Crop Science Society of America, Inc., Soil Sciences Society of America, Inc. Madison WI.
  • Van Volkenburgh E. & Boyer J.S. (1985) Inhibitory effects of water deficit on maize leaf elongation. Plant Physiology 77, 190 194.
  • Van Volkenburgh E. & Cleland R.E. (1980) Proton excretion and cell expansion in bean leaves. Planta 148, 273 278.
  • Van Volkenburgh E. & Cleland R.E. (1986) Wall yield threshold and effective turgor in growing bean leaves. Planta 167, 37 43.
  • Van Volkenburgh E. & Davies W.J. (1983) Inhibition of light-stimulated leaf expansion by abscisic acid. Journal of Experimental Botany 34, 835 845.
  • Van Volkenburgh E., Cleland R.E., Watanabe M. (1990) Light-stimulated cell expansion in bean (Phaseolus vulgaris L.) leaves. II. Quantity and quality of light required. Planta 182, 77 80.
  • Van Volkenburgh E., Schmidt M.G., Cleland R.E. (1985) Loss of capacity for acid-induced wall loosening as the principal cause of the cessation of cell enlargement in light-grown bean leaves. Planta 163, 500 505.
  • Ward J.M., Pei Z.-M., Schroeder J.I. (1995) Roles of ion channels in initiation of signal transduction in higher plants. Plant Cell 7, 833 844.
  • Wayne R. (1994) The excitability of plant cells with a special emphasis on characean internodal cells. Botanical Review 60, 265 367.
  • Wenkert W., Lemon E.R., Sinclair T.R. (1978) Leaf elongation and turgor pressure in soybean. Agronomy Journal of 70, 761 764.
  • Wetherell D.F. (1990) Leaf movements in plants without pulvini. In The Pulvinus: Motor Organ for Leaf Movement (eds R.L. Satter, H.L. Gorton & T.C. Vogelmann), pp. 72 78. American Society of Plant Physiologists, Rockville MD.
  • Williams S.E. & Bennett A.B. (1982) Leaf closure in the Venus flytrap: an acid growth response. Science 218, 1120 1122.
  • Wolfe J., Dowgert M.F., Steponkus P.L. (1986) Mechanical study of the deformation and rupture of the plasma membranes of protoplasts during osmotic expansions. Journal of Membrane Biology 93, 63 74.
  • Zeiger E. & Hepler P.K. (1977) Light and stomatal function: blue light stimulates swelling of guard cell protoplasts. Science 196, 887 890.