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Distribution des groupes sulfhydryles (—SH), activité des auxines‐oxydases et teneur en auxines des racines du Lens

1957; Wiley; Volume: 10; Issue: 4 Linguagem: Francês

10.1111/j.1399-3054.1957.tb06977.x

1399-3054

Paul Pilet,

Plant Stress Responses and Tolerance

Physiologia PlantarumVolume 10, Issue 4 p. 708-727 Distribution des groupes sulfhydryles (—SH), activité des auxines-oxydases et teneur en auxines des racines du Lens P. E. Pilet, P. E. Pilet Institut do Botanique de I'Université de Lausanne (Suisse) Laboratoire de Physiologie végétaleSearch for more papers by this author P. E. Pilet, P. E. Pilet Institut do Botanique de I'Université de Lausanne (Suisse) Laboratoire de Physiologie végétaleSearch for more papers by this author First published: October 1957 https://doi.org/10.1111/j.1399-3054.1957.tb06977.xCitations: 17AboutPDF 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 Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Barrow, E. S. G.: Thiol group s of biological importance. Adv. in enzymology 11: 201. 1951. 2 Bonner, J.: Plant hormones. Engineering and Sciences 16: 16. 1953. 3 Binet, L. & Magrou, J.: Glutathion, croissance et-cancer des plants. C. H. 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J.. 289: 15. 1936. 11 Galston, A. W., Bonner, J. & Baker, H. S.: Flavoprotein and peroxidases components of the indoleacetic acid oxidase system of peas. Arch, Biochem. Biophys. 42: 456. 1953. 12 Galston, A. W. & Dalberg, L. Y: The adapative formation and physiological significance of indoleacetic acid oxidase. Amer. J. Bot. 41: 373. 1954. 13 Goas, M.: Sur les propriétés décarboxylantes des organes en croissance. Racines C. B. Acad. Sc. Paris 240: 1663. 1955. 14 Goas, M.. Coléotiles Ibid. 242: 543. 1956. 15 Goas, M. Sur I'application du test mésoxalique à l'étude des phénomèenes de croissance. Bull. Soc. fr. Physiol. Végét. 2: 111. 1956. 16 Gola, G.: La zofa e i suoi composti nell'economia delle pianti. Ricerche di fisologia vegetale. I. I composti solforati dei tessuti merestematici. Malphighia 16: 368. 1902. 17 Golducre, P. L., Galston, A. W. & Weintraub, R. L.: The effect or substituted phenols on the activity of the indoleacetic acid oxidase of peas. Arch. Biochem. Biophys. 43: 358. 1953. 18 Gordon, S. A.: Occurrence, formation and inactivation of auxins. Ann. Rev. Plan Physiol 5: 341. 1954. 19 Gortner, W. A. & Kent, M.: Indoieacetic acid oxidase and an inhibitor in pineapple tissue. J. Biol. Chem., 204: 593. 1953. 20 Hammelt, F. S.: The chemical stimulus essential for growth by increase in cell number. Protoplasm 7: 297. 1929. 21 Hammelt, F. S.. Ibid. 7: 535. 1929. 22 Hammelt, F. S. Studies in the biology of metals. VI. The nature of the lead compound deposited in the growing root. Ibid. 7: 547. 1929. 23 Hammelt, F. S. & Chapman, S. S.: A correlation between sulfhydryl, mitosis and cell growth in length in roots of Phaseolus vulgaris. Growth 2: 297. 1938. 24 Hammelt, F. S. The quantitative unreliability of the nitroprusside test for SH and SS. Journ. Lab. clin. Med. 24: 293. 1938. 25 Hammelt, F. S. & Reynolds, A. R.: Disulfide from ammonium sulfate in the presence of mashed root-this of Phaseolus. Science 26: 498. 1937. 26 Hansch, C., Muir, R. M. & Metzenberg, R. L.: Further evidence for chemical reaction between plant growth regulators and plant substrate. Plant Physiol. 26: 812. 1951. 27 Hillman, W. S. & Galston, A. W.: Interaction of manganese and 2-4-dichlorophenol in the enzymatic destruction of indoleacetic acid. Physiol Plant. 9: 230. 1956. 28 Holtz, P.: Über den Mechanismus des Histidinabbaus durch. Ascorbinsaure und Thioglykolsäure. Z. phys. Chem. 250: 87. 1937. 29 Hopkins, F. G. & Elliott, K. A. C: Relation of glutathione to cell respiration. Proc. Roy. Soc. B. 109: 58. 1931. 30 Hopkins, F. G. & Morgan, E. J.: Appearence of glutathione dining the early stages of the germination of seeds. Nature 152: 288. 1943. 31 Jensen, W. A. & Kavaljian, L. G.: The cytochemical localization of ascorbic acid in root tip cells. The Journ. of biophys. and biochem. Cytol. 2: 87. 1956. 32 Karlsson, B. & Eliasson, L.: The respiratory quotient in different parts of wheat roots in relation to growth. Physiol Plant. 8: 561. 1955. 33 Kirk, P. L.: Kjeldahl method for total nitrogen. Anal. Chem. 22: 354. 1950. 34 Larsen, P.: Formation, occurrence and inactivation of growth substances. Ann, Rev. Plant Physiol 2: 109. 1951. 35 Maclachlan, G. A. & Waygood, E. R.: Catalysis of indoleacetic acid oxidation by manganic ions. Physiol Plant. 9: 321. 1956. 36 Maclachlan, G. A. Kinetics of enzymically-catalyzed oxidation of indoleacetic acid. Canad. J. of Biochem. and Biophys. 34: 1233. 1950. 37 Marré, E.: Dimostrazione spettrofotometric della formazione di complessi auxin- proteici livello dei gruppi sulfidrilici in preparati enzimatici vegetali. Atti Accad. naz. Lincei, Rend. CL Sc. 18: 88. 1955. 38 Oppenheimer, C. & Stern, K. G.: Biological oxidation. W. Junk. publ. The Hague, 1939. 39 Pilet, P. E.: Contribution à l'élude des hormones de croissance (auxines) dans la racine du Lens culinaris. Mem. Soc. vaud. Sc. nat. 10: 137. 1951. 40 Pilet, P. E. Répartition et variations des auxines dans les racines du Lens. Experientia, 7: 262. 1951. 41 Pilet, P. E. Physiologic des racines du Lens et hormones de croissance. Phyton (Austria) 4: 247. 1953. 42 Pilet, P. E. Variations histophysiologiques des racines du Lens à suite de traitements auxiniques. C. R. Acad. Se. Paris 237: 1352. 1953. 43 Pilet, P. E. Proposition d'une unité nouvelle pour experimer la concentration en auxines d'un tissu végétal. Ibid. 238: 605. 1954. 44 Pilet, P. E. Auxines et gradients physiologiques dans le racines. VIII Congr. intern. Bot. Paris 8: 297. 1954. 45 Pilet, P. E. Variations de croissance des racines ft phenomenes auxiniques. VIII Congr. intern. Bot. Paris 11: 178. 1954. 46 Pilet, P. E. Auxines-oxydases el péroxydases dans les racines du Lens. Act. Soc. helv. Sc. nat. 135: 133. 1955. 47 Pilet, P. E. Action de l'acide β-indolyl-acétique. du DL-tryptophane et de l'hydrazide maléique sur la croissance et la teneur en auxines des racines. Bull. Soc. bot. suisse 66: 26. 1956. 48 Pilet, P. E. Activité des auxines-oxydases dans les fragments de carotte cultivés in vitro. C. A. Acad. Sc. Paris 243: 1141. 1956. 49 Pilet, P. E. Variations de l'activité des auxines-oxydases dans les racines du Lens. Experientia, 13: 35. 1957. 50 Pilet, P. E. Dosage photocolorimétrique de l'acide β-indolyl-acétique: application à l'étude des auxines-oxydases. Rev. gén. Bot. 64: 106. 1957. 51 Pilet, P. E. Activité des auxines-oxydases et vieillissement des tissus. C. R. Acad. Sc. Paris, 245: 371. 1957. 52 Pilet, P. E. & Baillaud, L.: Activite des auxines-oxydases et circuimnutation des tiges du Phaseolus multiflorus. Ibid. 244: 1530. 1957. 53 Pilet, P. E. & Galston, A. W.: Auxin destruction, peroxidase activity and peroxide genesis in the root of Lens. Physiol Plant. 8: 888. 1955. 54 Pilet, P. E. & Margot, L.: Auxines et amidon I Distribution de l'amidon radiculaire. Bull. Soc. vaud. Sc. nat. 65: 391. 1953. 55 Pilet, P. E. & Meylan, S.: Polaritéélectrique. anxines et physiologie des racines du Lens. Bull. Soc. bot. suisse 63: 430. 1953. 56 Pilet, P. E. & Went, F. W.: Control of growth of Lens culinaris by temperature and light. Amer. J. Bot. 43: 190. 1956. 57 Rapkine, L.: Sur les processus chimiques an cours de la division cellulaire. C. R. Acad. Sc. Paris 191: 871. 1930. 58 L. Rapkine, S. M. & Trpinae, P.: Effet de protection de la cozymase sur les groupements sulfhydrylés des deshydrases. Ibid. 209: 253. 1939. 59 Kay, P. M. & Thimann, K. V.: Biochemical steps in the enzymatic oxidation of indole- acetic acid. Plant Physiol Suppl. 11: 30. 1955. 60 Kay, P. M. Steps in the oxidation of indoleacetic acid. Science 122: 187. 1955. 61 Richter, D.: The action of inhibitors on the catechol oxidase of potatoes. Biochem. J. 28: 901. 1934. 62 Robinson, E.: Proteolytic enzyme in growing cells. Journ. experim. Bot. 7: 290. 1956. 63 Rosenthal, S. M. & Voegtlin, C.: The action of sulphydryl ion. iron and cyanide compounds on the oxygen consumption of the living cells. Public health reports 46: 521. 1931. 64 Schöberl, A.: Cystein und Glutathion als Antikalalysalor bei Oxydation mit molekularem Sauerstoff. Ber. d. Chem. Ges. 64: 546. 1931. 65 Stern, K. G.: Über die Hemnmngstypen und den Mechanisnius der katallschen Reaktion. III Mitt, über Katalase. Z. phys. chem. 209: 176. 1932. 66 Tang, Y. W. & Bonner, J.: The enzymatic inactivation of indoleacetic acid. L Some characteristics of the enzyme contained in pea seedlings. Arch. Biochem. 13: 11. 1947. 67 Tang, Y. W. Ibid. II. The physiology of the enzyme. Amer. J. Bot. 35: 570. 1948. 68 Thimann, K. V.: Growth (Symposium suppl) 5. 1951. 69 Torrey, J. G.: Physiology of root elongation. Ann. Rev. Plant Physiol. 7: 237. 1956. 70 Turian, G.: Le corps paranucléaire des gamètes géants d'Allomyces javanicus traitéà l'acide borique. Protoplasm 47: 135. 1956. 71 Wagenknecht, A. C. & Burris, R. H.: Indoleacetic acid inactiving enzymes from bean roots and pea seedlings. Arch. Biochem. 25: 30. 1950. 72 Wanner, H.: The zonal graduation of respiratory intensity in the root. Ark. Bot. 31: 9. 1944. 73 Wanner, H. Natur und Verteilung der löslichen Kohlehydrate im Erbsenkeimling. Qualitative und quantitative Bestimmung der einfachen Zucker durch Papierchromatographic. Ber. schweiz. Bot. Gesell. 62: 305. 1952. Citing Literature Volume10, Issue4October 1957Pages 708-727 ReferencesRelatedInformation