Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. J Ruiz-Cristin, DP Briskin. Characterization of a H/NO 3 symport associated with plasma membrane vesicles
    of maize roots using 36clo3- as a radiotracer analog. Arch Biophys Biochem 285:74–82, 1991.

  2. R Wang, D Liu, M Crawford N. The ArabidopsisCHL1 protein plays a major role in high-affinity nitrate up-
    take. Proc Natl Acad Sci U S A 95:15134–15139, 1998.

  3. G Klobus, J Jerzykiewcz, J Buczek, AK Kononovicz, KG Raghothamaq. Characterization of the the nitrate
    transporter in root plasma membrance of Cucumis sativusL. Physiol Plant 20:323–328, 1998.

  4. G Amarasinghe, Y De Bruxielle, M Braddon, I Onyeocha, BG Forde, MK Uvardi. Regulation of GMNRT2ex-
    pression and nitrate transport activity in roots of soybean (Glycine max). Planta 206:44–52, 1998.

  5. MJ Hawkesford, JC Davidian, C Grignon. Sulphate/proton cotransport in plasma-membrane vesicles isolated
    from roots of Brassica napusL.: increased transport in membranes isolated from sulphur-starved plants. Planta
    190:297–304, 1993.

  6. FW Smith, MJ Hawkesford, PM Ealing, DT Clarkson, BPJ Vanden, AR Belcher, AGS Warrilow. Regulation
    of expression of a cDNA from barley roots encoding a high affinity sulphate transporter. Plant J 12:875–884,



  7. E Blumwald, RJ Poole. Nitrate storage and retrieval in Beta vulgaris:effects of nitrate and chloride on proton
    gradients in tonoplast vesicles. Proc Natl Acad Sci U S A 82:3683–3687, 1985.

  8. KS Schumaker, H Sze. Decrease of pH gradients in tonoplast vesicles by NO 3 and Cl: evidence for H-cou-
    pled anion transport. Plant Physiol 83:490–496, 1987.

  9. H Marschner. Mineral Nutrition of Higher Plants. London: Academic Press, 1955.

  10. V Römheld, H Marschner. Evidence for a specific uptake system for iron siderophores in roots of grasses. Plant
    Physiol 80:175–180, 1986.

  11. J Robinson, CM Procter, EL Connolly, ML Guerinot. A ferric-chelate reductase for iron uptake from soils. Na-
    ture 397:694–697, 1999.

  12. D Eide, M Broderius, J Fett, L Guerinot Mary, G Klobus, J Jerzykiewicz, J Buczek. A novel iron-regulated
    metal transporter from plants identified by functional expression in yeast. Proc Natl Acad Sci U S A
    93:5624–5628, 1996.

  13. S Mori, N Nishizawaw. Methionine as a dominant precursor of phytosiderophores. Plant Cell Physiol
    28:1082–1092, 1996.

  14. JF Ma, K Nomoto. Effective regulation of iron acquisition in graminaceous plants. The role of muginetic acids
    as phytosiderophores. Physiol Plant 97:609–617, 1996.

  15. FA Smith, JA Raven. Intracellular pH and its regulation. Annu Rev Plant Physiol 30:89–311, 1979.

  16. B Jacoby, GG Laties. Bicarbonate fixation and malate compartmentation in relation to salt-induced stoichio-
    metric synthesis of organic acid. Plant Physiol 47:525–531, 1971.

  17. PR Stout, DR Hoagland. Upward and lateral movement of salt in certain plants as indicated by radioactive iso-
    topes of potassium, sodium and phosphorus absorbed by roots. Am J Bot 26:320–324, 1939.

  18. JS Pate. Transport and partioning of nitrogenous solutes. Annu Rev Plant Physiol 31:313340, 1980.

  19. E Münch. Versuche über den Saftkreislauf. Ber Deutsch Bot Ges 45:340–356, 1927.

  20. MG Pitman. Ion transport into the xylem. Annu Rev Plant Physiol 28:71–88, 1977.

  21. DT Clarkson, AW Robards. The endodermis, its structural development and physiological role. In: JG Torrey,
    D Clarkson, eds. The Development and Function of Roots. London: Academic Press, 1975, pp 415–446.

  22. DT Clarkson. Movement of ions across roots. In: DA Baker, JL Hall, eds. Solute Transport in Plant Cells and
    Tissues. Harlow: Longman Scientific and Technical, 1988, pp 251–304.

  23. G Haberlandt. Anatomisch-pysiologische Untersuchungen über das tropische Laubblatt. Sitzungsber Akad
    Wiss Wien I 101:785–816, 1892.

  24. JL Broyer, DR Hoagland. Metabolic activities of roots and their bearing on the relation of upward movement
    of salts and water in plants. Am J Bot 30:261–273, 1943.

  25. RT Hardiman, B Jacoby. Absorption and translocation of Cd in bush beans (Phaseolus vulgaris). Physiol Plant
    61:670–674, 1984.

  26. HP Jones, KA Handreck. Studies of silica in the oat plant. III. Uptake of silica from the soil by the plant. Plant
    Soil 23:79–96, 1965.

  27. MGT Shone, DT Clarkson, J Sanderson, AV Wood. A comparison of the uptake and translocation of some or-
    ganic molecules and ions in higher plants. In: WP Anderson, ed. Ion Transport in Plants. New York: Academic
    Press, 1973, pp 771–582.

  28. EB Dumbroff, DR Peirson. Probable sites for passive movement of ions across the endodermis. Can J Bot
    49:35–38, 1971.

  29. CA Peterson, ME Emanuel, GB Humphreys. Pathway of movement of apoplastic fluorescent dye tracers
    through the endodermis at the site of secondary root formation in corn (Zea mays) and broad bean (Vicia faba).
    Can J Bot 59:618–625, 1981.

  30. DT Clarkson, JB Hanson. Mineral nutrition of higher plants. Annu Rev Plant Physiol 31:239–298, 1980.

  31. AR Yeo, MA Yeo, TJ Flowers. The contribution of an apoplastic pathway to sodium uptake by rice roots in
    saline conditions. J Exp Bot 38:1141–1153, 1987.

  32. CW Bell, O Biddlph. Translocation of calcium. Exchange versus mass flow. Plant Physiol 38:610–614, 1963.


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