SEARCH

SEARCH BY CITATION

REFERENCES

  • Briggs, D. E. (1961). A modification of the Sandstedt, Kneen and Blish assay of α-amylase. J. Inst. Brew., 67, 427.
  • Brown, H. T. & Morris, G. H. (1890), Researches on the germination of some of the Gramineae. J. chem. Soc, 57, 458.
  • Cherry, J. H. (1963). Protein bodies, nucleic acids and enzymes of peanut cotyledons: changes on germination. Proc. Seed Protein Conf. U.S.D.A., 115.
  • Chrispeels, M. J. & Varner, J. E. (1967). Gibberellic-acid-enhanced synthesis and release of α-amylase and ribonuclease by isolated barley aleurone layers. Pl. Physiol., Lancaster , 42, 398.
  • Cleland, R. & McCombs, N. (1965). Gibberellic acid: action in barley endosperm does not require endogenous auxin. Science. N. Y., 150, 497.
  • Duffus, J. H. (1966). Peroxidase in barley endosperm. J. Inst. Brew., 72, 569.
  • Goldacre, P. L. (1961). The indole-3-acetic acid oxidase-peroxidase of peas. 4th int. Conf. Pl. Growth Reg., p. 143. Iowa State University Press.
  • Greenwood, C. T. & MacGregor, A. W. (1965). The isolation of α-amylase from barley and malted barley and a study of the properties and action-pattern of the enzyme. J. Inst. Brew., 71, 405.
  • Jacobs, W. P. (1952). The role of auxin in differentiation of xylem around a wound. Am. J. Bot., 34, 361.
  • James, A. L. (1940). Carbohydrate metabolism of germinating barley. New Phytol., 39, 133.
  • Kirsop, B. H. (1966). New ideas in malting. Proc. Irish Maltsters' Technical Meeting, p. 37.
  • LaMotte, C. E. & Jacobs, W. P. (1963). A role of auxin in phloem regeneration in Coleus internodes. Devl Biol, 8, 80.
  • Macleod, A. M., Duffus, J. H. & Horsfall, D. J. L. (1966). The embryo as an activator of gibberellic-acid-induced α-amylase. J. Inst. Brew., 72, 36.
  • MacLeod, A. M., Duffus, J. H. & Johnston, C. S. (1964). Development of hydrolytic enzymes in ger-induced α-amylase. J. Inst. Brew., 72, 521.
  • MacLeod, A. M. & Palmer, G. H. (1966). The embryo of barley in relation to modification of the endonggrain. J. Inst. Brew., 72, 580.
  • MacLeod, A. M. & Palmer, G. H. (1967). Gibberellin from barley embryos. Nature. Lond., 216, 1342.
  • McDaniel, R. G. & Sarkissian, J. V. (1966). Enhancement of oxidation and phosphorylation of maize scutellum mitochondria by physiological concentrations of indoleacetic acid. Physiologia Pl. 19, 187.
  • Nieuwdrop, P. J. & Buys, M. C. (1964). Electron microscopic structure of the epithelial cells of the scutellum of barley. Acta bot. néerl., 13, 559.
  • Palmer, G. H. (1967). Ultra-structure of cereal grains in relation to germination. Ph.D. thesis, University of Edinburgh.
  • Petridis, C, Verbeek, R. & Massart, L. (1965). Gibberellic acid and barley embryos. J. Inst. Brew., 71, 469.
  • Pollock, J. R. A., Essery, R. E. & Kirsop, B. H. (1955). Studies in barley and malt. III. New and convenient germinative capacity test. J. Inst. Brew., 61, 295.
  • Radley, M. (1967). Site of production of gibberellin-like substances in germinating barley embryos. Planta, 75, 164.
  • Siegel, S. M. (1962). The Plant Cell Wall, p. 60. Pergamon Press, Oxford .
  • Varner, J. E. (1964). Gibberellic-acid controlled synthesis of α-amylase in barley endosperm. Pl. Physiol., Lancaster , 39, 411.
  • Varner, J. E. & Ram Chandra, G. (1964). Hormonal control of enzyme synthesis in barley endosperm. Proc. natn. Acad. Sci. U.S.A., 52, 100.
  • Went, F. W. & Thimann, K. V. (1937). Phytohormones. Macmillan, London .
  • Wetmore, R. H. & Rier, J. P. (1963). Experimental induction of vascular tissues in cells of angiosperms. Am. J. Bot., 50, 418.
  • Yomo, H. & Iinuma, H. (1966). Production of gibberellin-like substances in the embryo of barley during germination. Planta, 71, 113.