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Salicylic Acid and Its Effects on Plants

Year 2005, Volume: 42 Issue: 1, 213 - 223, 01.03.2005

Abstract

References

  • Aktaş, Y. L., 2001. Vitis vinifera L. cv. Sultani’de Salisilik Asit Uygulamasının Yaprak Proteinleri İçeriği Üzerine Etkileri. Fen Bil. Ens., Biyoloji Anabilim Dalı, Doktora Tezi, İzmir.
  • Berthon, J. Y.; M. J. Battraw; T. Gaspar and V. Boyer, 1993. Early Test Using Phenolic Compounds and Peroxidase Activity to Improve in vitro Rooting of Sequoiadendron giganteum (Lindl.). Bucholz, Saussurea, 24, 7-13.
  • Cleland C. F. and A. Ajami, 1974. Identification of The Flower-Inducing Factor Isolated from Aphid Honeydew as Being Salicylic Acid. Plant Physiol., 54, 904-906.
  • Davies, P. J., 1995. Salicylic Acid, Plant Hormones, Physiology, Biochemistry and Molecular Biology. Kluwer Acad. Pub., London, 833 p.
  • De Klerk, G. J.; S. Marinova; S. Rouf and T. J. Brugge, 1997. Salicylic Acid Effects on Rooting of Apple Microcuttings by Enhancement of Oxidation of Auxin. Acta Horticulturae, 447, 247-248.
  • Delaney, T. P.; S. Uknes; B. Vernooij; L. Friedrich; K. Weymann; D. Negrotto; T. Gaffney; M. Gut-Rella; H. Kessmann; E. Ward and J. Ryals, 1994. Science, 266, 1247-1250.
  • Eberhard, S.; N. Doubrava; V. Marta; D. Mohnen; A. Soutwick; A. Darvill and P. Albersheim, 1989. Pectic Cell Wall Fragments Regulate Tobacco Thin-Cell- Layer Explant Morphogenesis. Plant Cell, 1, 747-755.
  • Gaspar, T.; C. Kevers; J. F. Hausman and V. Ripetti, 1992. Practical Uses of Peroxidase Activity as A Predictive Marker of Rooting Performance of Micropropagated Shoots. Agronomie, 12, 757-765.
  • Harborne, J. B., 1980. Plant phenolics. In: Secondary Plant Products. E. A. Bell, B. V. Charlwood (ed.), Springer Verlag, Berlin, 329-402 p.
  • Hess, C. E., 1962. Characterization of The Rooting Cofactors Extracted from Hedera helix L. and Hibiscus rosa-sinensis L. Poc. 16 Inter. Hort. Cong., 382-388 p.
  • th Inter. Hort. Cong., 382-388 p.
  • Kefeli, V. I., 1978. Natural Plant Growth Inhibitors and Phytohormones. Dr. W. Junk b. v.-Publishers, Boston, 277 p.
  • Kling, G. J. and M. M. Meyer Jr, 1983. Effects of Phenolic Compounds and Indoleacetic Acid on Adventitious Root Initiation in Cuttings of Phaseolus aureus, Acer saccharinum and Acer griseum. Hort. Science, 18 (3), 352-354.
  • Lee, T. T. and F. Skoog, 1965. Effect of Substituted Phenols on Bud Formation and Growth of Tobacco Tissue Culture. Physiol. Plant, 18, 386-402.
  • Leslie, C. A. and R. J. Romani, 1988. Inhibition of Ethylene Biosynthesis by Salicylic Acid. Plant Physiol., 88, 833-837.
  • Levine, A.; R. Tenhaken; R. Dixon and C. Lamb, 1994. H2O2 from The Oxidative Burst Orchestrates The Plant Hypersensitive Disease Resistance Response. Cell, 79, 583-593.
  • Malamy, J.; J. P. Carr; D. F. Klessig and I. Raskin, 1990. Salicylic Acid: A Likely Endogenous Signal in the Resistance Responce of Tobacco to Viral Infection. Science, 250, 1002-1004.
  • Meeuse B. J. D. and I. Raskin, 1988. Sexual Reproduction in The Arum lily Family, with Emphasis on Thermogenicity. Sex. Plant Reprod., 1, 3-15.
  • Oota, Y., 1972. The Response of Lemna gibba G3 to A Single Long Day in The Presence of EDTA. Plant Cell Physiol., 13, 575-580.
  • Raskin, I.,1995. Salicylic Acid. In: Plant Hormones, Physiology, Biochemistry and Molecular Biology. Davies (ed.), Kluwer Acad. Pub., London., 188-205 p.
  • Seo, S.; K. Ishizuka and Y. Ohashi, 1995. Induction of Salicylic Acid β-Glucosidase in Tobacco Leaves by Exogenous Salicylic Acid. Plant Cell Physiol., 36 (3), 447-453.
  • Tang, W., 1987. Heat Production in Cycad Cones. Bot. Gaz., 148, 165-174.
  • Tomoya, N.; M. Ichiro; S. Shigemi; O. Norihiro and O. Yuko, 1998. Antogonistic Effect of Salicylic Acid and Jasmonic Acid on The Expression of Pathogenesis-Related (PR) Protein Genes in Wounded Mature Tobacco Leaves. Plant Cell Physiology, 39 (5), 500-507.
  • Van der Krieker, W. M.; J. Kodde; M. H. M. Visser; D. Tsardakas; A. Blaakmeer; K. de Groot and L. Leegstra, 1997. Increased Induction of Adventitious Rooting by Slow Release Auxins and Elicitors. In: Biology of Root Formation and Development. A. Altman and Y. Waisel (Eds.), Plenum Press, New York., 95- 104 p.
  • Yalpani, N.; P. Silverman; T. M. A. Wilson; D. A. Kleier and I. Raskin, 1991. Salicylic Acid is A Systemic Signal and An Inducer of Pathogenesis-Related Proteins in Virus-Infected Tobacco. The Plant Cell, 3, 809-818.
  • Yalpani, N.; J. Leon; M. A. Lawton and I. Raskin, 1993. Patyway of Salicylic Acid Bioseynthesis in Healthy and Virus-Inoculated Tobacco. Plant Physiol., 103, 315-321.

Salisilik Asit ve Bitkiler Üzerindeki Etkileri

Year 2005, Volume: 42 Issue: 1, 213 - 223, 01.03.2005

Abstract

References

  • Aktaş, Y. L., 2001. Vitis vinifera L. cv. Sultani’de Salisilik Asit Uygulamasının Yaprak Proteinleri İçeriği Üzerine Etkileri. Fen Bil. Ens., Biyoloji Anabilim Dalı, Doktora Tezi, İzmir.
  • Berthon, J. Y.; M. J. Battraw; T. Gaspar and V. Boyer, 1993. Early Test Using Phenolic Compounds and Peroxidase Activity to Improve in vitro Rooting of Sequoiadendron giganteum (Lindl.). Bucholz, Saussurea, 24, 7-13.
  • Cleland C. F. and A. Ajami, 1974. Identification of The Flower-Inducing Factor Isolated from Aphid Honeydew as Being Salicylic Acid. Plant Physiol., 54, 904-906.
  • Davies, P. J., 1995. Salicylic Acid, Plant Hormones, Physiology, Biochemistry and Molecular Biology. Kluwer Acad. Pub., London, 833 p.
  • De Klerk, G. J.; S. Marinova; S. Rouf and T. J. Brugge, 1997. Salicylic Acid Effects on Rooting of Apple Microcuttings by Enhancement of Oxidation of Auxin. Acta Horticulturae, 447, 247-248.
  • Delaney, T. P.; S. Uknes; B. Vernooij; L. Friedrich; K. Weymann; D. Negrotto; T. Gaffney; M. Gut-Rella; H. Kessmann; E. Ward and J. Ryals, 1994. Science, 266, 1247-1250.
  • Eberhard, S.; N. Doubrava; V. Marta; D. Mohnen; A. Soutwick; A. Darvill and P. Albersheim, 1989. Pectic Cell Wall Fragments Regulate Tobacco Thin-Cell- Layer Explant Morphogenesis. Plant Cell, 1, 747-755.
  • Gaspar, T.; C. Kevers; J. F. Hausman and V. Ripetti, 1992. Practical Uses of Peroxidase Activity as A Predictive Marker of Rooting Performance of Micropropagated Shoots. Agronomie, 12, 757-765.
  • Harborne, J. B., 1980. Plant phenolics. In: Secondary Plant Products. E. A. Bell, B. V. Charlwood (ed.), Springer Verlag, Berlin, 329-402 p.
  • Hess, C. E., 1962. Characterization of The Rooting Cofactors Extracted from Hedera helix L. and Hibiscus rosa-sinensis L. Poc. 16 Inter. Hort. Cong., 382-388 p.
  • th Inter. Hort. Cong., 382-388 p.
  • Kefeli, V. I., 1978. Natural Plant Growth Inhibitors and Phytohormones. Dr. W. Junk b. v.-Publishers, Boston, 277 p.
  • Kling, G. J. and M. M. Meyer Jr, 1983. Effects of Phenolic Compounds and Indoleacetic Acid on Adventitious Root Initiation in Cuttings of Phaseolus aureus, Acer saccharinum and Acer griseum. Hort. Science, 18 (3), 352-354.
  • Lee, T. T. and F. Skoog, 1965. Effect of Substituted Phenols on Bud Formation and Growth of Tobacco Tissue Culture. Physiol. Plant, 18, 386-402.
  • Leslie, C. A. and R. J. Romani, 1988. Inhibition of Ethylene Biosynthesis by Salicylic Acid. Plant Physiol., 88, 833-837.
  • Levine, A.; R. Tenhaken; R. Dixon and C. Lamb, 1994. H2O2 from The Oxidative Burst Orchestrates The Plant Hypersensitive Disease Resistance Response. Cell, 79, 583-593.
  • Malamy, J.; J. P. Carr; D. F. Klessig and I. Raskin, 1990. Salicylic Acid: A Likely Endogenous Signal in the Resistance Responce of Tobacco to Viral Infection. Science, 250, 1002-1004.
  • Meeuse B. J. D. and I. Raskin, 1988. Sexual Reproduction in The Arum lily Family, with Emphasis on Thermogenicity. Sex. Plant Reprod., 1, 3-15.
  • Oota, Y., 1972. The Response of Lemna gibba G3 to A Single Long Day in The Presence of EDTA. Plant Cell Physiol., 13, 575-580.
  • Raskin, I.,1995. Salicylic Acid. In: Plant Hormones, Physiology, Biochemistry and Molecular Biology. Davies (ed.), Kluwer Acad. Pub., London., 188-205 p.
  • Seo, S.; K. Ishizuka and Y. Ohashi, 1995. Induction of Salicylic Acid β-Glucosidase in Tobacco Leaves by Exogenous Salicylic Acid. Plant Cell Physiol., 36 (3), 447-453.
  • Tang, W., 1987. Heat Production in Cycad Cones. Bot. Gaz., 148, 165-174.
  • Tomoya, N.; M. Ichiro; S. Shigemi; O. Norihiro and O. Yuko, 1998. Antogonistic Effect of Salicylic Acid and Jasmonic Acid on The Expression of Pathogenesis-Related (PR) Protein Genes in Wounded Mature Tobacco Leaves. Plant Cell Physiology, 39 (5), 500-507.
  • Van der Krieker, W. M.; J. Kodde; M. H. M. Visser; D. Tsardakas; A. Blaakmeer; K. de Groot and L. Leegstra, 1997. Increased Induction of Adventitious Rooting by Slow Release Auxins and Elicitors. In: Biology of Root Formation and Development. A. Altman and Y. Waisel (Eds.), Plenum Press, New York., 95- 104 p.
  • Yalpani, N.; P. Silverman; T. M. A. Wilson; D. A. Kleier and I. Raskin, 1991. Salicylic Acid is A Systemic Signal and An Inducer of Pathogenesis-Related Proteins in Virus-Infected Tobacco. The Plant Cell, 3, 809-818.
  • Yalpani, N.; J. Leon; M. A. Lawton and I. Raskin, 1993. Patyway of Salicylic Acid Bioseynthesis in Healthy and Virus-Inoculated Tobacco. Plant Physiol., 103, 315-321.
There are 26 citations in total.

Details

Primary Language Turkish
Journal Section Articles
Authors

Elmas Özeker This is me

Publication Date March 1, 2005
Submission Date November 25, 2015
Published in Issue Year 2005 Volume: 42 Issue: 1

Cite

APA Özeker, E. (2005). Salisilik Asit ve Bitkiler Üzerindeki Etkileri. Journal of Agriculture Faculty of Ege University, 42(1), 213-223.

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