Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. FA Smith, JA Raven. Intracellular pH and its regulation. Annu Rev Plant Physiol 30:289–311, 1979.

  2. RB Lee, RG Ratcliffe. Phosphorus nutrition and the intracellular distribution of inorganic phosphate I pea root
    tips: a quantitative study using^31 P-NMR. J Exp Bot 34:1222–1244, 1983.

  3. BC Loughman, RG Ratcliffe. Nuclear magnetic resonance and the study of plants. In: PB Tinker, A Lauchli.
    Advances in Plant Nutrition, Vol 1. New York: Praeger, 1984, pp 241–283.

  4. GD Humble, TC Hsiao. Specific requirement of potassium for light-activated opening of stomata in epidermal
    strips. Plant Physiol 44:230–234, 1969.

  5. TC Hsiao. Stomatal ion transport. In: U Luttge, MG Pitman, eds. Encyclopedia of Plant Physiology, New Se-
    ries, Vol 2B. Berlin: Springer-Verlag, 1976, pp 193–221.

  6. AS Raghavendra, JM Rao, VSR Das. Replaceability of potassium by sodium for stomatal opening in epider-
    mal strips of stomatal opening in epidermal strips of Commelina benghalensis. Z Pflanzenphysiol 80:36–42,



  7. M Fujino. Role of adenosine triphosphate and adenosine triphosphatase in stomatal movement. Sci Bull Fac
    Educ Nagasaki Univ 18:1–47, 1967.

  8. GD Humble, TC Hsiao. Light-dependent influx and efflux of potassium of guard cells during stomatal open-
    ing and closing. Plant Physiol 46:483–487, 1970.

  9. DA Thomas. The regulation of stomatal aperture in tobacco leaf epidermal strips. I. The effect of ions. Aust J
    Biol Sci 23:961–979, 1970.

  10. RA Fischer. Stomatal opening: role of potassium uptake by guard cells. Science 160:784–785, 1968.

  11. RA Fischer. Role of potassium in stomatal opening in the leaf of Vicia faba. Plant Physiol 47:555–558, 1971.

  12. N Terry, A Ulrich. Effects of potassium deficiency on the photosynthesis and respiration of leaves of sugar
    beet. Plant Physiol 51:783–786, 1973.

  13. N Terry, A Ulrich. Effects of potassium deficiency on the photosynthesis and respiration of leaves of sugar beet
    under conditions of low sodium supply. Plant Physiol 51:1099–1101, 1973.

  14. M Tester, MR Blatt. Direct measurement of Kchannels in thylakoid membranes by incorporation of vesicles
    into planar lipid bilayers. Plant Physiol 91:249–252, 1989.

  15. RA Dilley, LP Vernon. Ion and water transport processes related to light-dependent shrinkage of spinach
    chloroplasts. Arch Biochem Biophys 111:365–375, 1965.

  16. B Rumburg, E Reinwald, H Schroder, U Sippel. Correlation between electron flow, proton translocation and
    phosphorylation in chloroplasts. Naturwissenschatten 55:77–79, 1968.

  17. W Wu, J Peters, GA Berkowitz. Surface charge–mediated effects of Mg^2 on Kflux across the chloroplast
    envelope are associated with regulation of stromal pH and photosynthesis. Plant Physiol 97:580–587, 1991.

  18. G Mix, H Marschner. Mineralstoffverteilung zwischen chloroplasten und ubrigem blattgewebe. Z Pflanzen-
    physiol 73:307–312, 1974.

  19. JV Moscolov, VA Aleksandrovskaya. Physiological role of sodium in plants. Chem Abstr 56:1784, 1962.

  20. JS Knypl, KM Chylinska. Comparison of the stimulatory effect of potassium on growth, chlorophyll and pro-
    tein synthesis in the lettuce cotyledons with the effects produced by other univalent ions. Biochem Physiol
    Pflanz 163:52–63, 1972.

  21. H Marschner, JV Possingham. Effects of Kand Naon growth of leaf discs of sugar beet and spinach. Z
    Pflanzenphysiol 75:6–16, 1975.

  22. EA Kirkby, MJ Armstrong, JE Leggett. Potassium recirculation in tomato plants in relation to potassium sup-
    ply. J Plant Nutr 3:955–966, 1981.

  23. CH Suelter. Enzymes activated by monovalent cations. Science 168:289–295, 1970.

  24. W Pfluger, W Wiedemann. Der Einflus monovalent kationen auf die nitratreduktion von Spinacia oleraceaL.
    Z Pflanzephysiol 85:125–133, 1977.

  25. DT Clarkson, JB Hanson. The mineral nutrition of higher plants. Annu Rev Plant Physiol 31:239–298,



  26. JL Hall, TJ Flowers. The effect of salt on protein synthesis in the halophyte Suaeda maritima. Planta
    110:361–368, 1973.

  27. HJ Evans, RA Wildes. Potassium and its role in enzyme action. In: Potassium in Biochemistry and Physiology.
    Berlin: International Potash Institute, 1972.

  28. TJ Flowers. Salt tolerance in Suaeda maritima(L) Dum. A comparison of mitochondria isolated from green
    tissues of SuaedaandPisum. J Exp Bot 101:101–110, 1974.

  29. RE Nitsos, HJ Evans. Effects of univalent cations on the activity of particular starch synthetase. Plant Physiol
    44:1260–1266, 1969.

  30. T Akatsuka, OE Nelson. Granule bound adenosine diphosphate glucose-starch glucosyl transferase of maize
    seeds. J Biol Chem 241:2280–2286, 1966.

  31. VN Nigam, A Fridland. Studies on glycogen synthesis in pigeon liver homogenates. Biochem J 105:505–513,



  32. J Preiss, E Greenberg. Biosynthesis of starch in Chlorella pyrenoidosa. I. Purification and properties of the
    adenosine diphosphoglucose:-4-glucosyl transferase from Chlorella. Arch Biochem Biophys 118:702–708,




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