SEARCH

SEARCH BY CITATION

References

  • Anker, L. (1972). The circumnutation of the Avena coleoptile, its autonomous nature and its interference with the geotropic reaction. Acta bot. neerl., 21, 71.
  • Avery, G. S. & Burkholder, P. R. (1936). Polarized growth and cell studies on the Avena coleoptile, phytohormone test object. Bot. Gaz., 63, 1.
  • Bray, G. A. (1960). A simple efficient liquid scintillator for counting aqueous samples in a liquid scintillation counter. Analyt. Biochem., 1, 279.
  • Brbmekamp, C. E. B. (1925). Das Verhalten der Graskeimlinge auf dem Klinostaten. Ber. dt. bot. Ges., 43. 159.
  • Dattaray, B. & Mer, C. L. (1964). Auxin metabolism and the growth of etiolated oat seedlings. In: Regulateurs Naturels de la Croissance Végétale (Ed. by J. P.Nitsch), p. 475. Centre National de la Recherche Scientifique, Paris .
  • Dolk, H. E. (1936). Geotropism and the growth substance. Rec. Trav. bot. neerl., 33, 509.
  • Hamilton, R. H., Bandurski, R. S. & Grigsby, B. H. (1961). Isolation of indole-3-acetic acid from corn kernels and etiolated corn seedlings. Pl. Physiol., Lancaster, 36, 354.
  • Hatcher, K. S. J. (1943). Auxin production during development of the grain in cereals. Nature, Lond., 151, 278.
  • Hatcher, E. S. J. & Gregory, F. G. (1941). Auxin production during the development of the grain of cereals. Nature, Lond., 148, 626.
  • Hemberg, T. (1955). Studies on the balance between free and bound auxin in germinating maize. Physiologia Pl., 8, 418.
  • Hemberg, T. (1958). Auxins and growth inhibiting substances in maize kernels. Physiologia Pl., 11, 284.
  • Jordan, W. R. & Skoog, F. (1971). Effects of cytokinins on growth and auxin in coleoptiles of derooted Avena seedlings. Pl. Physiol., Lancaster, 48, 97.
  • Kaiser, W. (1967). Der Einfluss epiphytiseher Bakterien auf den Geholt extrahierbar IES bei Zea mays. Wiss. Z. Univ. Rostock, 16, 467.
  • Lambarca, C., Nicholls, P. B. & Bandurski, R. S. (1965). A partial characterization of indoleacetylinositols from Zea mays. Biochem. Biophys. Res. Commun., 20, 641.
  • Lange, S. (1925). Über autonome Krümmungen der Koleoptile von Avena auf dem Klinostaten. Ber. dt. bot. Ges., 25, 438.
  • Larsen, N. P. (1955). Growth substances in higher plants. In: Modern Methods of Plant Analysis, Vol. 3 (Ed. by K.Paech & M. V.Tracey), p. 565. Springer, Berlin .
  • Libbert, E., Wichner, S., Schiewer, U. Risch, M. & Kaiser, W. (1966). The influence of epiphytic bacteria on auxin metabolism. Planter, 68, 327.
  • Lyon, C. J. (1968). Plagiotropism and auxin transport. In: Transport of Plant Hormones (Ed. by Y.Vardar), p. 251. North-Holland, Amsterdam .
  • Mann, J. D. & Jaworski, E. G. (1970). Minimizing loss of indoleacetic acid during purification of plant extracts. Planta, 92, 285.
  • Mer, C. L. (1969). Plant growth in relation to endogenous auxin, with special reference to cereal seedlings. New Phytol., 68, 275.
  • O'Brien, T. P. & Thimann, K. V. (1965). Histological studies on the coleoptile. I. Tissue and cell types in the coleoptile tip. Am. J. Bot., 52, 910.
  • Overbeek, J. Van (1937). Effect of the roots on the production of auxin by the coleoptile. Proc. natn. Acad. Sci. U.S.A., 23, 272.
  • Overbeek, J. Van (1938). Auxin distribution in seedlings and its bearing on the problem of bud inhibition. Bot. Gaz., 100, 133.
  • Overbeek, J. Van (1941). A quantitative study of auxin and its precursor in coleoptiles. Am. J. Bot., 28, 1.
  • Pisek, A. (1926). Untersuchungen über den Autotropismus der Haferkoleoptile bei Lichutrümmung, über Reizleitung und den Zusammenhang von Lichtwachstumsreaktion und Phototropismus. jb. wiss. Bot., 65, 460.
  • Pohl, R. (1935). Über den Endospermwuchsstoff und die Wuchsstoffproduktion der Koleoptilspitze. Planta, 24, 523.
  • Pohl, R. (1936). Die Abhängigkeit des Wachstums der Avena-Koleoptile und ihrer sogenannten Wuchsstoffproduktion von Auxingelhalt des Endosperms. Planta, 25, 720.
  • Raadts, E. & Söding, H. (1957). Chromatographische Untersuchungen Über die Wuchsstoff der Haferkoleoptile. Planta, 49, 47.
  • Ramshorn, K. (1955). Untersuchungen zur Frage der Wuchsstoffnatur bei Avena sativa. Ber. dt. bot. Ges., 68, (25).
  • Sheldrake, A. R. (1971a). The occurrence and significance of auxin in the substrata of bryophytes. New Phytol., 70, 519.
  • Sheldrake, A. R. (1971b). Auxin in the cambium and its differentiating derivatives. J. exp. Bot., 22, 735.
  • Sheldrake, A. R. & Northcote, D. H. (1968a). Some constituents of xylem sap and their possible relationship to xylem differentiation. J. exp. Bot., 19, 681.
  • Sheldrake, A. R. & Northcote, D. H. (1968b). The production of auxin by tobacco internode tissues. New Phytol., 67, 1.
  • Sheldrake, A. R. & Northcote, D. H. (1968c). The production of auxin by autolysing tissues. Planta, 80, 227.
  • Shen-Miller, J. & Gordon, S. A. (1966). Hormonal relations in the phototropic response. IV. Light induced changes of endogenous auxin in the coleoptile. Pl. Physiol., Lancaster, 41, 831.
  • Skoog, F. (1937). A deseeded Avena test method for small amounts of auxin and auxin precursors. J. gen. Physiol., 20, 311.
  • Söding, H. & Raadts, E. (1953). Über das verhalten der Wuchsstoffes der Koleoptilenspitze gegen Säure und Lauge. Planta, 43, 25.
  • Tetley, U. & Priestley, J. H. (1927). The histology of the coleoptile in relation to its phototropic response. New Phytol., 26, 171.
  • Thimann, K. V. (1934). Studies on the growth hormone of plants. VI. The distribution of the growth substance in plant tissues. J. gen. Physiol., 18, 23.
  • Thimann, K. V. & O'Brien, T. P. (1965). Histological studies on the coleoptile. II. Comparative vascular anatomy of coleoptiles of Avena and Triticum. Am. J. Bot., 52, 918.
  • Ueda, M. & Bandurski, R. S. (1969). A quantitative estimation of alkali-labile indole-3-acetic acid compounds in dormant and germinating maize kernels. Pl. Physiol., Lancaster, 44, 1175.
  • Voss, H. (1939). Nachweis des inactiven Wuchsstoffes, eines Wuchsstoffantagonisten und deren wachstrumsregulatorische Bedeutung. Planta, 30, 252.
  • Went, F. W. (1928). Wuchsstoff und Wachstum. Rec. Trav. bot. néerl., 25, 1.
  • Went, F. W. & Thimann, K. V. (1937). Phytohormones. Macmillan, New York .
  • Whitehouse, R. L., & Zalik, S. (1968). Translocation of indole-3-acetic acid-i-14C and tryptophan-i-14C in seedlings of Phaseolus coccineus L. and Zea mays L. Pl. Physiol., Lancaster, 42, 1363.
  • Wildman, S. G. & Bonner, J. (1948). Observations on the chemical nature and formation of auxin in the Avena coleoptile. Am. J. Bot., 35, 740.
  • Winter, A. (1966). A hypothetical route for the biogenesis of IAA. Planta, 71, 229.