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Polar Transport of Radioactivity from 14 C‐Labelled‐β‐Indolylacetic Acid in Stems of Lens culinaris

1965; Wiley; Volume: 18; Issue: 3 Linguagem: Inglês

10.1111/j.1399-3054.1965.tb06929.x

1399-3054

P. É. Pilet,

Phytochemistry and Biological Activities

Physiologia PlantarumVolume 18, Issue 3 p. 687-702 Polar Transport of Radioactivity from 14C-Labelled-β-Indolylacetic Acid in Stems of Lens culinaris P. E. Pilet, P. E. Pilet Laboratoire de Physiologie végétale, Université de Lausanne, SuisseSearch for more papers by this author P. E. Pilet, P. E. Pilet Laboratoire de Physiologie végétale, Université de Lausanne, SuisseSearch for more papers by this author First published: July 1965 https://doi.org/10.1111/j.1399-3054.1965.tb06929.xCitations: 24AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References Collet, G., Dubouchet, J. & Pilet, P. E.: Etude, par chromatographie sur couche mince, de quelques composés indoliques. Méthodes et premiers résultats. Physiol. Vég. 2: 157– 194. 1964. Galston, A. W. & Hillman, W. S.: The degradation of auxin. Encyclop. Plant Physiol. 14: 647– 670. 1961. Goldsmith, M. H. M. & Thimann, K. V.: Some characteristics of movement of indoleacetic acid in coleptiles of Avena. I. Uptake, destruction, immobilization and distribution of IAA during basipetal translocation. -— Ibid. 37: 492– 505. 1962. Gregory, F. G. & Hancock, C. R.: The rate of transport of natural auxin in woody shoots. Ann. Bot. 19: 451– 465. 1955. Hare, R. C.: Indoleacetic acid oxidase. Bot. Rev. 30: 129– 165. 1964. Hay, J. R.: The effect of 2,4-dichlorophenoxyacetic acid and 2,3,5-triiodobenzoic acid on the transport of indole acetic acid. Plant. Physiol. 31: 118– 120. 1956. Jacobs, W. P.: Auxin-transport in the hypocotyl of Phaseolus vulgaris L. Amer. J. Bot. 37: 248– 254. 1950. Jacobs, W. P. Auxin relationships in an intercalary meristem: further studies on the gynophore of Arachis hypogaea L. Ibid. 38: 307– 310. 1951. Jacobs, W. P. Acropetal auxin transport and xylem regeneration — a quantitative study. Amer. Nat. 88: 327– 337. 1954. Jacobs, W. P. The polar movement of auxin in the shoots of higher plants: its occurrence and physiological significance. — In Plant Growth Regulation: Fourth Int. Conf. Plant Growth Regulation (1959), p. 397– 409. Iowa State Univ. Press, Ames , Iowa . 1961. Keitt, G. W.: A study of the effects of some benzoic acid derivative and related compounds on the polar transport of auxin. — Ph. D. thesis. Univ. Wisconsin. 1956. Kuse, G.: Effect of 2,2,5-triiodobenzoic acid on the growth of lateral bud and on tropism of petiole. Mem. Coll. Sci. Univ. Kyoto. Ser. B, 207– 215. 1953. Leopold, A. C.: The transport of auxin. Handbuch der Pflanzenphysiologie 14: 671– 682. 1961. Leopold, A. C. & Lam, S. L.: Polar transport of three auxin. — In Plant Growth Regulation: Fourth Int. Conf. Plant Growth Regulation (1959), p. 411– 418. Iowa State Univ. Press, Ames , Iowa . 1961. McCready, C. C.: A direct-plating methods for the precise assay of cabon-14 in small liquid samples. Nature 181: 1406– 1408. 1958. McCready, C. C. Movement of growth regulators in plants. I. Polar transport of 2,4-dicholorophenoxyacetic acid in segments from the petioles of Phaseolus vulgaris. New Phytol. 62: 3– 18. 1963. McCready, C. C. & Jocobs, W. P.: Movement of growth regulators in plants. II. Polar transport of radioactivity from indoleacetic acid 14C and 2,4-dichlorophenoxyacetic acid 14C in petioles of Phaseolus vulgaris. Ibid. 62: 19– 34. 1963a. McCready, C. C. Jocobs, W. P. Movement of growth regulators in plants. IV. Relationships between age, growth and polar transport in petioles of Phaseolus vulgaris. Ibid. 62: 360– 366. 1963b. Morgan, D. G.: Influence of α-naphythylphtalamic acid on the movement of indolyl-3-acetic acid in plants. Nature 201: 476– 477. 1964. Morgan, D. G. & Söding, H.: Ueber die Wirkungsweise von Phatälsaure mono-α-napthylamid auf das Wachstum der Haferkoleoptile. Planta 52: 235– 259. 1958. Niedergang-Kamien, E. & Leopold, A. C.: Inhibitors of polar auxin transport. Physiol. Plant. 10: 29– 38. 1957. Niedergang-Kamien, E. & Skoog, F.: Studies on polarity and auxin transport in plant I. Modification of polarity and auxin transport by triiodobenzoic acid. Ibid. 9: 60– 1956. Pilet, P. E.: Etude de la circulation des auxines dans la racine du Lens culanaris Med. Bull. Soc. Bot. Suisse 61: 410– 424. 1951. Pilet, P. E. In vitro destruction of auxin labelled with C14. Physiol. Plant. 13: 766– 775. 1960. Pilet, P. E. Les phytohormones de croissance. Méthode, chimie, Biochimie, physiologie, applications pratiques. — Mansson Ed., Paris . 1961a. Pilet, P. E. Kinetics of the auxin catabolism. Physiol. Plant. 14: 787– 802. 1961b. Pilet, P. E. L'hydroxy-3 méthyl-3 oxo-2 indole, un des produits possibles du catabolsime de l'acide β-indoly-acétique, — Bull. Soc. Chim. Bio. 44: 875– 886. 1962. Pilet, P. E. Action de l'acide 2,3,5-triiodobenzoïque et du glutathion sur la morphologie et le catabolisme auxinique de tissus cultivés in vitro. Physiol. Plant. 16: 299– 310. 1963. Pilet, P. E. Méthode de mesure du transport d'auxines radio-actives. Impr. Ch. Zwahlen, Lausanne, 9 p. 1964a. Pilet, P. E. Analyse biocinétique: catabolisme auxinique et croissance des cellules végétales. Ann. Bio. 3: 262. 1964b. Pilet, P. E. Auxin transport in Lens roots. Nature 204: 561– 562. 1964c. Pilet, P. E. & Lerch, P.: Etude du catabolsime des auxines marquées par du radiocarbone. Méthode et premiers résultats. Mém. Soc. Vaud. Sc. Nat. 12: 213– 276. 1960. Pilet, P. E. & Went, F. W.: Control of growth of Lens culinaris by temperature and light. Amer. J. Bot. 43: 190– 198. 1956. Ray, R. M.: Destruction of auxin. Ann. Rev. Plant Physiol. 9: 81– 118. 1958. Scott, T. K.: The physiological status of diffusible and extractable auxin. — Ph. D. thesis. Bio. Dept. Stanford Univ. 1961. Scott, T. K. & Briggs, W. R.: Recovery of native and applies auxin from the light-grown “Alaska” pea seedling. Amer. J. Bot. 1965. (in press). Skoog, F.: Absorption & translocation of auxin. Ibid. 25: 361– 372. 1938. Van der Weij, H. G.: Der Mechanismus des Wuchsstofftransportes. Rec. Trav. Bot. Néerl. 29: 379– 496. 1932. Van der Weij, H. G. Der Mechanismus des Wuchsstofftransportes. II. 31: 810– 857. 1934. Vardar, Y.: Some confirmatory experiments performed with IAA-14C concerning the effect of TIBA upon auxin transport. Rev. Facult. Sci. Univ. Instabul 24: 133– 145. 1959. Went, F. W.: Wichsstoff und Wachstum. Rec. trav. Bot. néerl. 25: 1– 116. 1928. Went, F. W. & Thimann, K. V.: Phytohormones. — The Macmillan Co., New-York . 1937. Yin, H. C.: Studies on the nyctinastic movement of the leaves of Carica papaya. Amer. J. Bot. 28: 250– 261. 1941. Citing Literature Volume18, Issue3July 1965Pages 687-702 ReferencesRelatedInformation