SEARCH

SEARCH BY CITATION

references

  • Ap Rees, T. (1984). Sucrose metabolism. In: Storage Carbohydrates in Vascular Plants (Ed. by D. H.Lewis), pp. 5373. Cambridge University Press, Cambridge , UK .
  • Avigad, G. (1982). Sucrose and other Disaccharides. In: Encyclopedia of Plant Physiology; vol. 13 A, Plant Carbohydrates : Intracellular Carbohydrates (Ed. by F. A.Loewus & W.Tanner), pp. 234235. Springer Verlag, Berlin .
  • Ayres, P. G. (1976). Patterns of stomatal behaviour, transpiration, and CO2 exchange in pea following infection by powdery mildew (Erysiphe pisi). Journal of Experimental Botany 27, 11961205.
  • Ayres, P. G. (1981). Powdery mildew stimulates photosynthesis in infected leaves of pea plants. Phytopathologische Zeitschrift 100, 312318.
  • Bacon, J. S. D., Macdonald, I. R. & Knight, A. H. (1965). The development of invertase activity in slices of the root of Betula vulgaris L. washed under aseptic conditions. Biochemical Journal 94, 175182.
  • Beck, E. & Ziegler, P. (1989). Biosynthesis and regulation of starch in higher plants. Annual Review of Plant Physiology and Plant Molecular Biology 40, 95117.
  • Billett, E. E., Billett, M. A. & Burnett, J. H. (1977). Stimulation of maize invertase activity following infection Ustilago maydis. Phytochemistry 16, 11631166.
  • Bradford, M. M. (1976). A rapid and sensitive method for the quantification of microgram quantities of protein utilising the principle of protein-dye binding. Analytical Biochemistry 72, 248254.
  • Bushnell, W. R. & Gay, J. L. (1978). Accumulation of solutes in relation to structure and function of haustoria in powdery mildews. In: The Powdery Mildews (Ed. by D. M.Spencer), pp. 183235. Academic Press, London , UK .
  • Daly, J. M. (1976). The carbon balance of diseased plants: changes in respiration, photosynthesis and translocation. In: Encyclopedia of Plant Physiology, vol. 4, Physiological Plant Pathology (Ed. by R.Heitefuss & P. H.Williams), pp. 450479. Springer Verlag, Berlin .
  • Donaldson, I. A. (1984). Erysiphe pisi, a model for fungal/higher plant biotrophic parasitism. D.Phil. Thesis, University of Oxford, Oxford , UK .
  • Donaldson, LA. & Jørgensen, J. H. (1988). Barley powdery mildew ‘invertase’ is an alpha-glucosidase. Carlsberg Research Communications 53, 421430.
  • Doodson, J. K., Manners, J. G. & Myers, A. (1965). Some effects of yellow rust (Puccinia striiformis) on 14C assimilation and translocation in wheat. Journal of Experimental Botany 16, 304317.
  • Farrar, J. F. & Lewis, D. H. (1987). Nutrient relations in biotrophic infections. In: Fungal Infections of Plants (Ed. by G. F.Pegg & P. G.Ayres), pp. 92132. Cambridge University Press, Cambridge , UK .
  • Farrar, J. F. & Rayns, F. W. (1987). Respiration of leaves of barley infected with powdery mildew: increased engagement of the alternative oxidase. New Phytologist 107, 119125.
  • Halvorsen, H. & Ellias, L. (1958). The purification and properties of an α-glucosidase of Saccaromyces itallicus Y1225. Biochima et Biophysica Acta 30, 2840.
  • Harris, P. J. (1983). Cell walls. In: Isolation of Membranes and Organelles from Plant Cells (Ed. by J. L.Hall & A. L.Moore), pp. 2553. Academic Press, London , UK .
  • Herold, A. (1984). Synthesis of starch in leaves. In: Society for Experimental Biology Seminar Series, vol. 19 (Ed. by D. H.Lewis), pp. 181204. Cambridge University Press, Cambridge , UK .
  • 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, 905911.
  • Hwang, B. K. & Heitefuss, R. (1986). Sugar composition and acid invertase activity in spring barley plants in relation to adult-plant resistance to powdery mildew. Phytopathology 76, 365369.
  • Keeling, P. L., Wood, J. R., Tyson, R. H. & Bridges, I. G. (1988). Starch biosynthesis in developing wheat grain: evidence against the direct involvement of triose phosphate in the metabolic pathway. Plant Physiology 87, 311319.
  • Klecan, A. L. & Buchanan, B. B. (1988). Powdery mildew infection alters fructose 2, 6-bisphosphate content and sucrose to starch ratio in leaves of wheat plants actively forming grain. Physiological and Molecular Plant Pathology 32, 221227.
  • Krishnan, H. B. & Pueppke, S. G. (1988). Invertases from rust-infected wheat leaves. Journal of Plant Physiology 133, 336339.
  • Lloyd, J. B. & Whelan, W. J. (1969). An improved method for the determination of glucose in the presence of maltose. Analytical Biochemistry 30, 467470.
  • Lyne, R. L. & Ap Rees, T. (1971). Invertase and sugar content during differentiation of roots of Pisum sativum. Phytochemistry 10, 25932599.
  • MacDonald, P. W. & Strobel, G. A. (1970). Adenosine diphosphate glucose pyrophosphorylase control of starch accumulation in rusted wheat leaves. Plant Physiology 46, 126135.
  • MacRae, J. C. (1971). Quantitative measurement of starch in very small amounts of leaf tissue. Planta 96, 101108.
  • Manners, J. M. (1979). Physiology of fungal haustoria (Erysiphales). Ph.D. Thesis, University of London, UK .
  • Manners, J. M. & Gay, J. L. (1982). Transport, translocation and metabolism of 14C photosynthates at the host-parasite interface of Pisum sativum and Erysiphe pisi. New Phytologist 91, 221244.
  • Masuda, T., Takahashi, T. & Sugawara, S. (1987). The occurrence and properties of alkaline invertase in mature roots of sugar beets. Agricultural and Biological Chemistry 51, 23092314.
  • Masuda, H., Takahashi, T. & Sugawara, S. (1988). Acid and alkaline invertases in suspension cultures of sugar beet cells. Plant Physiology 86, 312317.
  • McAinsh, M. R., Ayres, P. G. & Hetherington, A. M. (1989). The respiration of protoplasts from leaves of barley infected by powdery mildew (Erysiphe graminis f.sp. Hordei). Plant Science 64, 221230.
  • Miller, G. L. (1959). Use of dinitrosalicylic acid reagent for determination of reducing sugar. Analytical Chemistry 31, 426428.
  • 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.
  • Ou-Lee, T. M. & Setter, T. L. (1985). Enzyme activities of starch and sucrose pathways and growth of apical and basal maize kernels. Plant Physiology 79, 848851.
  • Preiss, J. (1982). Regulation of the biosynthesis and degradation of starch. Annual Review of Plant Physiology 33, 431454.
  • Preiss, J. (1986). Adenosine 5'-diphosphoglucose. In: Methods of Enzymic Analysis (Ed. by H. U.Bergmeyer), pp. 496502. Academic Press, New York , USA .
  • Ricardo, C. P. P. & Ap Rees, T. (1970). Invertase activity during the development of carrot roots. Phytochemistry 9, 239247.
  • Schipper, A. L. & Mirocha, C. J. (1969). The mechanism of starch depletion in leaves of Phaseolus vulgaris infected with Uromyces phaseoli. Phytopathology 59, 17221727.
  • Shiraishi, T., Oku, H., Isono, M. & Ouchi, S. (1975). The injurious effect of pisatin on the plasma membrane of pea. Plant and Cell Physiology 16, 939942.
  • Sicher, R. C. Kremer, D. F. & Harris, W. G. (1986). Control of photosynthetic sucrose synthesis in barley primary leaves. Role of fructose 2,6-bisphosphate. Plant Physiology 82, 1518.
  • Smith, A., Bettey, M. & Bedford, I. D. (1989). Evidence that the locus alters the starch content of developing pea embryos through an effect of ADP-Glucose pyrophosphorylase. Plant Physiology 89, 12791284.
  • Sokal, R. R. & Rohlf, F. J. (1981). Biometry: The Principles and Practice of Statistics in Biological Research, 2nd edn. W. H. Freeman and Co., New York , USA .
  • Stitt, M., Bulpin, P. V. & Ap Rees, T. (1978). Pathway of starch breakdown in photosynthetic tissues of Pisum sativum. Biochimica et Biophysica Acta 544, 200214.
  • Xu, D., Sung, S. S. & Black, C. C. (1989). Sucrose metabolism in Lima bean seeds. Plant Physiology 89, 11061116.
  • Ziegler, P. (1988). Partial purification and characterisation of the major endoamylase of mature pea leaves. Plant Physiology 82, 11191121.