SEARCH

SEARCH BY CITATION

REFERENCE.

  • Allen, P. J. & Bacon, J. S. D. (1956). Oligosaccarides formed from sucrose by fructose-transferring enzymes of higher plants. Biochemical Journal, 63, 200206.
  • Archbold, H. K. (1940). Saccharase activity in the barley plant. Biochemical Journal, 34, 749763.
  • Arnold, W. N. (1965). β-fructofuranosidase from grape berries. Biochimica et Biophysica Acta, 110, 134147.
  • Arnold, W. N. (1968). The selection of sucrose as the translocate of higher plants. Journal of Theoretical Biology, 21, 1320.
  • Bacon, J. S. D., MacDonald, I. R. & Knight, A. H. (1965). The development of invertase activity in slices of the root of Beta vulgaris washed under aseptic conditions. Biochemical Journal, 94, 175182.
  • Begg, J. E. & Wright, M. J. (1962). Growth and development of leaves from intercalary meristems in Phalaris arundinacea L. Nature, 194, 1097.
  • Brovchenko, M. L. (1970). Sucrose hydrolysis in the freespace of leaf tissues and localization of invertase. Fiziologiya Rastenii, 17, 3138.
  • Dawson, R. M. C., Elliot, D. C., Elliot, N. H. & Jones, K. M. (1969). Data for Biochemical Research, 2nd edn. Clarendon Press, Oxford .
  • Eschrich, W. & Heyser, W. (1975). Biochemistry of phloem constituents. In: Encyclopaedia of Plant Physiology, New Series, vol. 1, Phloem Transport (Ed. By M. H.Zimmerman & J. A.Milburn), pp.101136. Springer-Verlag, Berlin .
  • Fellows, R. J. & Geiger, D. R. (1974). Structural and physiological changes in sugar beet leaves during sink to source conversion. Plant Physiology, 54, 877885.
  • Giaquinta, R. (1977). Sucrose hydrolysis in relation to phloem translocation in Beta vulgaris. Plant Physiology, 60, 339343.
  • Giaquinta, R. (1978). Source and sink leaf metabolism in relation to phloem translocation. Carbonpartioning and enzymology. Plant Physiology, 41, 282288.
  • Glasziou, K. T., Waldron, J. C. & Bull, T. A. (1966). Control of invertase synthesis in sugar cane. Loci of auxin and glucose effects. Plant Physiology, 41, 282288.
  • Greenland, A. J. (1979). Invertases of healthy and rusted leaves of oat. Ph.D. thesis, University of Sheffield, U.K.
  • Greenland, A. J.& Lewis, D. H. (1981). The acid invertases of the developing third leaf of oat. II. Changes in the activities of soluble isoenzymes, New Phytologist, 88, 279288.
  • Hatch, M. D. & Glasziou, K. T. (1963). Sugar accumulation cycle in sugar cane. II. Relationship of invertase activity to sugar content and growth rate in storage tissue of plants grown in controlled environments. Plant Physiology, 38, 344348.
  • Holligan, P. M. & Drew, E. A. (1971). Routine analysis by gas-liquid chromatography of soluble carbohydrates in extracts of plant tissues. II. Quantitative analysis of standard carbohydrates and the separation and estimation of soluble sugars and polyols from a variety of plant tissues. New Phytologist, 70, 271297.
  • Jones, R. A. & Kaufman, P. B. (1975). Multiple forms of invertase in developing oat internodes. Plant Physiology, 55, 114119.
  • Langer, R. H. M. (1972). How Grasses Grow. The Institute of Biology, Studies in Biology, No. 34. Arnold, London .
  • Lisitsyn, D. I. (1953). Activity of carbohydrase in leaves of ‘glucoside’ plants. Biokhimiya, 18, 188190.
  • Little, G. & Edelman, J. (1973). Solubility of plant invertase. Phytochemistry, 12, 6771.
  • Lyne, R. L. & Rees, T. ap (1971). Invertase and sugar content during differentiation of roots of Pisum sativum. Phytochemistry, 10, 25932599.
  • Macleod, R. D. & Francis, D. (1977). Some observations on invertase activity in roots of Vicia faba. Journal of Experimental Botany, 28, 853863.
  • Manning, K. & Maw, G. A. (1975). Distribution of acid invertase in the tomato plant. Phytochemistry, 14, 19651969.
  • Matsushita, K. & Uritani, I. (1977). Synthesis and apparent turnover of acid invertase in relation to invertase inhibitor in wounded sweet potato root tissue. Plant Physiology, 59, 879883.
  • Miller, G. L. (1959). Use of dinitrosalicylic acid reagent for determination of reducing sugar. Analytical Chemistry, 31, 426428.
  • Milthorpe, F. L. & Moorby, J. (1969). Vascular transport and its significance in plant growth. Annual Review of Plant Physiology, 20, 117138.
  • Mitchell, D. T., Fung, A. K. & Lewis, D. H. (1978). Changes in the ethanol-soluble carbohydrate composition and acid invertase in infected first leaf tissues susceptible to crown rust of oat and wheat stem rust. New Phytologist, 80, 381392.
  • Nakagawa, H., Kawasaki, Y., Ogura, N. & Takehana, H. (1971). Purification and some properties of two types of β-fructofuranoside from tomato fruit. Agricultural and Biological Chemistry, 36, 1826.
  • Parr, D. R. & Edelman, J. (1975). Release of hydrolytic enzymes from the cell walls of intact and disrupted carrot callus tissue. Planta, 127, 111119.
  • Pollock, C. J. & Lloyd, E. J. (1977). The distribution of acid invertase in developing leaves of Lolium temulentum L. Planta, 133, 197200.
  • Pollock, C. J. & Rees, T. ap (1975). Activities of enzymes of sugar metabolism in cold stored tubers of Solanum tuberosum. Phytochemistry, 14, 613617.
  • Porter, H. K. & May, L. H. (1955). Metabolism of radioactive sugars by tobacco leaf discs. Journal of Experimental Botany, 6, 4363.
  • Rees, T. ap (1974). Pathways of carbohydrate breakdown in higher plants. In: MTP International Review of Science, Biochemistry Series I, Vol. II, Plant Biochemistry (Ed. By D. H.Northcote), pp. 89127. Butterworths, London .
  • Ricardo, C. P. P. & Rees, T. ap (1970). Invertase activity during the development of carrot roots. Phytochemistry, 9, 239247.
  • Roberts, D. W. A. (1951). Physiological and biochemical studies in plant metabolism. IV. Effects of illumination and darkness on the physiological heterogeneity in the first leaf of wheat. Canadian Journal of Botany, 29, 451466.
  • Roberts, D. W. A. (1952). Physiological and biochemical studies in plant metabolism. V. The effect of changes in soil water content on the physiological heterogeneity in the first leaf of wheat. Canadian Journal of Botany, 30, 5066.
  • Roberts, D. W. A. (1953). Physiological and biochemical studies in plant metabolism. VIII. The distribution of invertase in the first leaf of Khapli wheat. Canadian Journal of Botany, 31, 367382.
  • Turgeon, R. & Webb, J. A. (1975). Physiological and structural ontogeny of the source leaf. In: Phloem Transport (Ed. By S.Aranoff, J.Dainty, P. R.Gorham, L. M.Srivastora & C. A.Swanson), pp. 297313. Plenum Press, New York .
  • Ward, G. N. (1953). Physiological and biochemical studies in plant metabolism. VII. The invertase of the seedling wheat leaf. Canadian Journal of Botany, 31, 8189.
  • Wardlaw, I. F. (1968). The control and pattern of movement of carbohydrates in plants. Botanical Review, 34, 79105.
  • Weatherley, P. E. (1953). On the uptake and hydrolysis of sucrose by leaf tissues. New Phytologist, 52, 7679.
  • Wittenbach, V. A. (1978). Breakdown of ribulose bisphosphate carboxylase and change in proteolytic activity during dark-induced senescence of wheat seedlings. Plant Physiology, 62, 604608.
  • Ziegler, H. (1975). Nature of transported substances. In: Encyclopaedia of Plant Physiology, New Series, vol. 1, Phloem Transport (Ed. By M. H.Zimmerman & J. A.Milburn), pp. 59100. Springer-Verlag, Berlin .