1. bookVolumen 16 (1995): Heft 4 (November 1995)
01 Jan 1992
4 Hefte pro Jahr
Uneingeschränkter Zugang

The Regulation and Biochemical Action of Natural Fungicides in Tobacco

Online veröffentlicht: 06 Jan 2015
Volumen & Heft: Volumen 16 (1995) - Heft 4 (November 1995)
Seitenbereich: 157 - 170
Eingereicht: 22 Mar 1995
Akzeptiert: 18 Sep 1995
01 Jan 1992
4 Hefte pro Jahr

1. Bottin, A., Véronésl, D., Esquerré-Tugayé, M.T., Blein, J.-P., Rusterucci, C. and P. Ricci: Differential responses of tobacco cells to elicitors from two Phyto-phthora species; Plant Physiol. Biochem. 32 (1994) 373-378.Search in Google Scholar

2. Brady, K.P., Darvill, A.G. and P. Albersheim: Activation of a tobacco glycine-rich protein gene by a fungal glucan preparation; Plant J. 4 (1993) 517-524.Search in Google Scholar

3. Chappell, J., VonLanken, C. and U. Vögeli: Elichor-inducible 3-hydroxy-3-methylglutaryl coenzyme A reductase activity is required for sesquiterpene accumulation in tobacco cell suspension cultures; Plant Physiol. 97 (1991) 693-698.Search in Google Scholar

4. Chen, Z., Silva, H. and D.F. Klessig: Active oxygen species in the induction of plant systemic acquired resistance by salicylic acid; Science 262 (1993) 1883-1886.Search in Google Scholar

5. Day, S.: A shot in the arm for plants; N. Scientist 1855 (1993) 36-40.Search in Google Scholar

6. Edreva, A., Karjieva, R., Coussirat, J.C., Lukarska, E. and R. Delon: Involvement of free radicals and superoxide dismutase in blue mold resistance of tobacco; Ann. du Tabac 23 (1991) 69-74.Search in Google Scholar

7. Enyedi, A.J., Yalpam, N., Silverman P. and J. Raskin: Signal molecules in systemic plant resistance to pathogens and pests; Cell 70 (1992) 879-886.Search in Google Scholar

8. Fournier, J., Pouénat, M.-L., Rickauer, M. Rabinovitch-Chable, H., Rigaud, M. and M.-T. Esquerré-Tugayé: Purification and characterisation of elicitor-induced lipoxygenase in tobacco cells; Plant J. 3 (1993) 63-70.Search in Google Scholar

9. Geoffroy, P., Legrand, M. and B. Fritig: Isolation and characterization of a proteinaceous inhibitor of microbial proteinase induced during the hypersensitive reaction of tobacco to tobacco mosaic virus; Mol. Plant Microbe Interact. 3 (1990) 327-333.Search in Google Scholar

10. Georgieva, I.D., Delon, R., Coussirat, J.C. and A. Edreva: Etude biochimique du tabac éprouvé dans les conditions du test cotylédons: effet du magnésium, réactions des plantes résistentes et sensibles à Perono-$pora tabacina VII. Etude cytochimique de la callose; Ann. du Tabac 22 (1989) 95-101.Search in Google Scholar

11. Hain, R., Reif, H.-J., Krause, E., Langebartets, R., Kindl, H., Vornam, B., Wiese, W., Schmelzer, E., Schreier, P.H., Stökker, R.H. and K. Stenzel: Disease resistance results from foreign phytoalexin expression in a novel plant; Nature 361 (1993) 153-156.Search in Google Scholar

12. Kamada, Y. and S. Muto: Stimulation by fungal elicitor of inositol phospholipid turnover in tobacco suspension culture cells; Plant Cell Physiol. 35 (1994) 397-404.Search in Google Scholar

13. Kamada, Y. and S. Muto: Proteine kinase inhibitors inhibit stimulation of inositol phospholipid turnover and induction of phenylalanine ammonia-lyase in fungal elicitor-treated tobacco suspension culture cells; Plant Cell Physiol. 35 (1994) 405-409.Search in Google Scholar

14. Kamoun, S-, Young, M., Glascock, C.B. and B.M. Tyler: Extracellular protein elicitors from Phytophthora: Host-specificity and induction of resistance to bacterial and fungal phytopathogens; Mol. Plant Microbe Interact. 6 (1993) 15-25.Search in Google Scholar

15. Lamb, C.J., Lawton, M.A., Dron, M. and R.A. Dixon: Signals and transduction mechanisms for activation of plant defenses against microbial attack; Cell 56 (1989) 215-224.Search in Google Scholar

16. Lamb, C.J., Ryals, J.A., Ward, E.R. and R.A. Dixon: Emerging strategies for enhancing crop resistance to microbial pathogens; Biotechnol. 10 (1992) 1436-1445.Search in Google Scholar

17. Linthorst, H.J.M.: Pathogenesis-related proteins of plants; Critical Reviews m Plant Sciences 10 (1991) 123-150.Search in Google Scholar

18. Linthorst, H.J.M., Brederode, F.T., van der Does, C. and J.F. Boh Tobacco proteinase inhibitor-I genes are locally, but not systemically induced by stress; Plant Mol. Biol. 21 (1993) 985-992.Search in Google Scholar

19. Logemann, J., Jach, G., Tommerup, H., Mundy and J. Schell: Expression of a barley ribosome-inactiva-ting protein leads to increased fungal protection in transgenic tobacco plant; Biotechnol. 10 (1992) 305-308.Search in Google Scholar

20. Memelink, J., Hoge, J.H.C. and R.A. Schilperoort: Cytokinin stress changes the development regulation of several defence-related genes in tobacco; EMBO J. 6 (1987) 3579-3583.Search in Google Scholar

21. Memelink, J., Swords, K.M.M., de Kam, R.J., Schilperoort, R.A., Hoge, J.H.C. and L.A. Staehelin: Structure and regulation of tobacco extensin; Plant J. 4 (1993) 1011-1022.Search in Google Scholar

22. Mohan, R., Bajar, A.M. and P.E. Kolattukudy: Induction of a tomato anionic peroxidase gene (tap 1) by wounding in transgenic tobacco and activation of tap 1/GUS and up 2/GUS chimeric gene fusions in transgenic tobacco by wounding and pathogen attack; Plant Mol. Biol. 21 (1993) 341-354.Search in Google Scholar

23. Moreau, R.A., Powell, M.J., Whitaker, B.D., Baily, B.A. and J.D. Anderson: Xylanase treatment of plant cells induces glycosylation and fatty acylation of phytosterols; Physiol. Plant. 91 (1994) 575-580.Search in Google Scholar

24. Neale, A.D., Wahleithner, J.A., Lund, M., Bonnett, H.T., Kelly, A., Meeks-Wagner, D.R., Reacock, W.J. and E.S. Dennis: Chitinase, β-1,3-glucanase, osmotin, and extensin are expressed in tobacco explants during flower formation; Plant Cell 2 (1990) 673-684.Search in Google Scholar

25. Nemestothy, G.S. and D.I. Guest: Phytoalexin accumulation, phenylalanine ammonia lyase activity and ethylene biosynthesis in fosetyl-Al treated resistant and susceptible tobacco cultivars infected with Phytophthora nicotianae var. nicotianae; Physiol. Mol. Plant Pathol. 37 (1990) 207-219.Search in Google Scholar

26. Nesopoulos, C. and J.-C. Pernollet: Local structural differences between α- and β-elicitins by circular dichroism and ultraviolet difference spectroscopy; Int. J. Pept. Protein Res. 43 (1994) 154459.Search in Google Scholar

27. Nielsen, M.: Leaf Surface compounds affecting germination of Peronospora iabacina sporangia. CORESTA Information Bulletin 4 (1991) 156.Search in Google Scholar

28. Ofiwald, W. and E.F. Elstnen Die Wirt-Parasit-Be-ziehungen, Bakterien und Pilze als Parasiten; in Schadwirkungen auf Pflanzen, edited by B, Hock and E.F. Elstner, B.L-Wissenschaftsverlag, Mannheim, 1988, p. 251.Search in Google Scholar

29. Pearce, G., Johnson, S. and C.A. Ryan: Purification and characterization from tobacco (Nicotiana tabacum) leaves of six small, wound-inducible, proteinase isoinhibitors of the potato inhibitor II family; Plant Physiol. 102 (1993) 639-644.Search in Google Scholar

30. Pélissier, B., Thibaud, J., Grignon, C. and M.-T. Esquerré-Tugayé: Cell surfaces in plant-microorganism interactions. IV, Elicitor preparations from fungal pathogens depolarize plant membranes; Plant Sci. 56 (1986) 103-109.Search in Google Scholar

31. Pellegrini, L., Geoffroy, P., Fritig, B. and M. Legrand: Molecular cloning and expresssion of a new class of ortho-diphenol-o-methyltransferases induced in tobacco (Nicotiana tabacum L) leaves by infection or elicitor treatment; Plant Physiol. 103 (1993) 509-517.Search in Google Scholar

32. Pouteau, S., Grandbastien, M.-A. and M. Boccara: Microbial elicitors of plant defence responses activate transcription of a retrotransposon; Plant J. 5 (1994) 535-542.Search in Google Scholar

33. Preisig, C.L. and R.A. Moreau: Effects of potential signal transduction antagonists on phytoalexin accumulation in tobacco; Phytochem. 36 (1994) 857-863.Search in Google Scholar

34. Price, A.H., Taylor, A., Ripley, S.J., Griffiths, A., Trewavas, A.J, and M.R. Knight: Oxidative signals in tobacco increase cytosolic calcium; Plant Cell 6 (1994) 1301-1310.Search in Google Scholar

35. Raz, V. and F. Fluhn Calcium requirement for ethylene-dependent responses; Plant Cell 4 (1992) 1123-1130.Search in Google Scholar

36. Raz, V. and R. Fluhr: Ethylene signal is transduced via protein phosphorylation events in plants; Plant Cell 5 (1993) 523-530.Search in Google Scholar

37. Reuveni, M. and Y. Cohen: Growth retardation and changes in phenolic compounds with special reference to scopoletin in mildewed and ethylene-treated tobacco plants; Physiol. Plant Pathol. 12 (1978) 179-189.Search in Google Scholar

38. Rickauer, M., Fournier, J.and M.-T. Esquerre-Tugaye: Induction of proteinase inhibitors in tobacco cell suspension culture by elicitors of Phytophthora parasitica var. nicotianae; Plant Physiol. 90 (1989) 1065-1070.Search in Google Scholar

39. Rickauer, M., Fournier, J., Pouenat, M.-L., Berthalon, E., Bottin, A. and M.-T. Esquerre-Tugaye: Early changes in ethylene synthesis and lipoxygenase activity during defense induction in tobacco cells; Plant Physiol. Biochem. 28 (1990) 647-653.Search in Google Scholar

40. Sanchez, L.M., Doke, N. and K. Kawakita: Elicitor-induced chemiluminescence in cell suspension cultures of tomato, sweet pepper and tobacco plants and its inhibition by suppressor from Phytophthora spp.; Plant Sci. 88 (1993) 141-148.Search in Google Scholar

41. Sela-Buurlage, M.B., Ponstein, A.S., Bres-Vloemans, S.A., Melchers, L.S., van den Elzen, P.J.M. and B.J.C Cornelissen: Only specific tobacco (Nicotiana tabacum) chitinases and β-1,3-glucanases exhibit antifungal activity; Plant Physiol. 101 (1993) 857-863.Search in Google Scholar

42. Sharon, A., Fuchs, Y. and J.D. Anderson: The elicitation of ethylene biosynthesis by a Trichoderma xylanase is not related to the cell wall degradation activity of the enzyme; Plant Physiol. 102 (1993) 1325-1329.Search in Google Scholar

43. Silverman, P., Nuckles, E., Ye, Y.S., Kuc, J. and J. Raskin: Salicylic acid, ethylene, and pathogen resistance in tobacco; Mol. Plant Microbe Interact. 6 (1993) 775-781.10.1094/MPMI-6-775Search in Google Scholar

44. Sisson, V.A., Severson, R.F. and D.M. Jackson: Inheritance of high duvatrienol production in tobacco; Tob. Sci. 37 (1993) 25-29.Search in Google Scholar

45. Snook, M.E., Chortyk, O.T. and A.S. Csinos: Black shank disease fungus; Inhibition of growth by tobacco root constituents and related compounds; in Naturally occurring pest bioregulators, edited by P.A. Hedin, ACS Symposium Series 449, Washington, 1991, pp. 388-398.10.1021/bk-1991-0449.ch027Search in Google Scholar

46. Stolle, K., Zook, M., Shain, L. and J. Kuc: Restricted colonization by Peronospora tabacina and phytoalexin accumulation in immunized tobacco leaves; Phytopa-thol. 78 (1988) 1193-1197.Search in Google Scholar

47. Stone, B.A: Cell walls in plant-microorganism associations; Aust. J. Plant Physiol. 16 (1989) 5-17.Search in Google Scholar

48. Strittmatter, G. and D. Wegener: Genetic engineering of disease resistance in plants: present state of art; 2. Naturforsch. 48c (1993) 673-688.Search in Google Scholar

49. Threlfall, D.R. and I.M. Whitehead: Co-ordinated inhibition of squalene synthetase and induction of enzymes of sesquiterpenoid phytoalexin biosynthesis in cultures of Nicotiana tahacum; Phytochem. 27 (1988) 2567-2580.Search in Google Scholar

50. Tso, T.C.: Production, physiology and biochemistry of tobacco plant; IDEALS, Inc., Beltsville, Maryland, USA 1990, p. 550.Search in Google Scholar

51. Tuzun, S., Reuveni, M., Siegel, M.R. and J. Kuc: The effect of removing leaf surface components with acetone from immunized and nonimmunized resistant tobacco plants on their susceptibility to blue mold; Phytopathol. 79 (1989) 1024-1027.Search in Google Scholar

52. Van Etten, H.D., Matthews, D.E. and P.S. Matthews: Phytoalexin Detoxification: Importance for pathogenicity and practical implications; Ann. Rev. Phytopathol. 27 (1989) 143-164.Search in Google Scholar

53. Vernooij, B., Friedrich, L., Morse, A., Reist, R., Kolditz-Jawhar, R., Ward, E., Uknes, S., Kessmann, H, and J. Ryals: Salicylic acid is not the translocated signal responsible for inducing systemic acquired resistance but is required in signal transduction; Plant Cell 6 (1994) 959-965.Search in Google Scholar

54. Viard, M.-P., Martin, F., Pugin, A., RiccI, P. and J.-P. Blein: Protein phosphorylation is induced in tobacco cells by the elicitor cryptogein; Plant Physiol. 104 (1994) 1245-1249.Search in Google Scholar

55. Vögeli, U., Vögeli-Lange, R. and J. Chappell: Inhibition of phytoalexin biosynthesis in elicitor-treated tobacco cell-suspension by calcium/calmodulin antagonists; Plant Physiol. 100 (1992) 1369-1376.Search in Google Scholar

56. Waffenschmidt, S. and L. Jaenecke: Glykoproteine und Pflanzen-Zellkommunikation; Chemie in unserer Zeit 1 (1991) 29-43.10.1002/ciuz.19910250105Search in Google Scholar

57. Whitehead, IM., Threlfall, D.R. and F. Ewing: 5-epi-aristolochene is a common precursor of the sesquiterpenoid phytoalexins capsidiol and debneyol; Phytochem. 28 (1989) 775-779.Search in Google Scholar

58. Yoshikawa, M., Tsuda, M. and Y. Takeuchi: Resistance to fungal diseases in transgenic tobacco plants expressing the phytoalexin elicitor-releasing factor, β-l,3-endoglucanase, from soybean; Naturwissenschaften 80 (1993) 417-420.Search in Google Scholar

59. Zanetti, A., Beauvais, F., Huet, J.-C. and J.-C. Pernollet: Movements of elicitins, necrosis-inducing proteins secreted by Phytophthora sp., in tobacco; Planta 187 (1993) 163-170.Search in Google Scholar

Empfohlene Artikel von Trend MD

Planen Sie Ihre Fernkonferenz mit Scienceendo