Rola estru metylowego kwasu jasmonowego - nowego hormonu roslinnego w biosyntezie etylenu

• Autorzy: Saniewski M , Lange E. , Czapski J.
• Języki publikacji: PL

Abstrakty

EN

Jasmonic acid (JA) and methyl jasmonate (JA-Me) are naturally occurring growth regulators widely distributed in plants, showing various biological activities in the regulation of plant growth and development. This article reviews the effect of methyl jasmonate and/or jasmonic acid on ethylene production and some other physiological processes during ripening of tomatoes and apples, flowers senescence and ethylene production in leaves and the possible role of jasmonic acid in biosynthesis of ethylene in wounded and pathogen infected tissues. It was found that JA-Me and JA induce or stimulate ethylene production in different organs of many plants. It seems that methyl jasmonate and jasmonic acid are among the factors controlling the biosynthesis of ethylene through stimulation of ACC synthase and ACC oxidase activities.

Słowa kluczowe

PL

biosynteza; ester metylowy kwasu jasmonowego; hormony roslinne; fizjologia roslin; etylen

• Wydawca: -
• Czasopismo: Postępy Nauk Rolniczych
• Rocznik: 1995
• Tom: 42
• Numer: 3
• Opis fizyczny: s.3-17,rys.,tab.,bibliogr.

Twórcy

autor

Saniewski M

• Instytut Sadownictwa i Kwiaciarstwa, Skierniewice

autor

Lange E.

autor

Czapski J.

Bibliografia

• [1] Abeles F.B., Hershberger W L., Dunn L.J. 1989. Hormonal regulation, and intracellular localization of a 33-kD cationic peroxidase in excised cucumber cotyledons. Plant Physiol. 89: 664-668.
• [2] Albrecht T., Kehlen A., Stahl K., Knöfel M.D., Sembdner G., Weiler E.W. 1993. Quantification of rapid, transiet increases of jasmonic acid in wounded plants using a monoclonal antibody. Planta 191: 86-94.
• [3] Albrechtova J. T.P., Ullmann J. 1994. Methyl jasmonate inhibits growth and flowering in Chenopodium rubrum. Biologia Plant. 36: 317-319.
• [4] Aldridge D.C., Galt S., Giles D., Turner W.W. 1971. Metabolites of Lasiodiplodia theobromae. J. Chem. Soc. (C): 1623-1627.
• [5] Bailly C., Corbineau F., Come D. 1992. The effects of abscisic acid and methyl jasmonate on 1-aminocyclopropane-1-carboxylic acid conversion to ethylene in hypocotyl segments of sunflower seedlings, and their control by calcium and calmodulin. Plant Growth Regul. 11: 349-355.
• [6] Barkai-Golan R., Kopeliovitch E. 1983. Induced ethylene evolution and climacteric-like respiration in Rbizopus-infected rin and nor tomato mutants. Physiol. Plant Pathol. 22: 357-362.
• [7] Barkai-Golan R., Lavy-Meir G., Kopeliovitch E. 1989. Stimulation of fruit ethylene production by wounding and by Botrytis cinerea and Geotrichum candidum infection in normal and non-riperung tomatoes. J. Phytopathol. 125: 148-156.
• [8] Chou C.M., Kao C.H. 1992. Stimulation of 1-aminocyclopropane-1-carboxylic acid-dependent ethylene production in detached rice leaves by methyl jasmonate. Plant Sci. 83: 137-141.
• [9] Chou C.M., Kao C.H. 1992. Methyl jasmonate, calcium, and leaf senescence in rice. Plant Physiol. 99: 1693-1694.
• [10] Crabalona L. 1967. Presence of levorotatory methyl jasmonate, methyl cis-2(2-penten-1-y)-3-oxocyclopentenyl acetate, in the essential oil Tunisian rosemary. C.R. Acad. Sci., Paris. C 264: 2074-2076.
• [11] Creelman RA., Tierney A., Mullet J.E. 1992. Jasmonic acid/methyl jasmonate accumulate in wounded soybean hypocotyls and modulate wound gene expression. Proc. Natl. Acad. Sci. USA 89: 4938-4941.
• [12] Czapski J.. Horbowicz M., Saniewski M. 1991. The effect of methyl jasmonate on tocopherols content in ripening tomato fruit. Bull. Pol. Acad. Sci. Biol. Sci. 39: 41-45.
• [13] Czapski J., Horbowicz M, Saniewski M. 1992. The effect of methyl jasmonate on free fatty acids content in ripening tomato fruits. Biol. Plant. 34: 71-76.
• [14] Czapski J., Saniewski M. 1985. Effect of methyl jasmonate on carotenoids in tomato fruits. Garlenbauwissenschaft 50: 35-37.
• [15] Czapski J., Saniewski M. 1988. The effect of methyl jasmonate on polyphenol oxidase and peroxidase activities in tomato fruit. Bull. Pol. Acad. Sci., Biol. Sci. 36: 127-132.
• [16] Czapski J., Saniewski M. 1992. Stimulation of ethylene production and ethylene-forming enzyme activity in fruits of the non-ripening nor and rin tomato mutants by methyl jasmonate. J. Plant Physiol. 139: 265-268.
• [17] Czapski J., Saniewski M., Puchalski J., Lange E. and Nowacki J. 1988. The effect of methyl jasmonate on activity and electrophoretic pattern of polyphenol oxidase isoenzymes in postclimacteric apples cv. Jonathan. Fruit Sci. Rep.15: 103-110.
• [18] Demole E., Lederer E., Mercier D. 1962. Isolement et determination de la structure du jasmonate de methyle, constituant odarant caracteristique de l'essence de jasmin. Helv. Chim. Acta 45: 675-685.
• [19] Dunlap J.R., Robacker K.M. 1994. Wound induced ethylene production from excised muskmelon fruit tissue. J. Hort. Sci. 69: 189-195.
• [20] Franceschi V.R., Grimes H.D. 1991. Induction of soybean vegetative storage proteins and anthocyanins by low-level atmospheric methyl jasmonate. Proc. Natl. Acad. Sci. USA 88: 6745-6749.
• [21] Goodenough P.W. 1986. A review of the role of ethylene in biochemical control of ripening in tomato fruit. Plant Growth Regul. 4: 125-137.
• [22] Hyodo H., Hashimoto C., Morozumi S., Hu W., Tanaka K. 1993. Characterization and induction of the activity of 1-aminocyclopropane-1-carboxylate oxidase in the wounded mesocarp tissue of Cucurbita maxima. Plant Cell Physiol. 34: 667-671.
• [23] Kende H. 1993. Ethylene biosynthesis. Ann. Rev. Plant Physiol. Plant Mol. Biol. 44: 283-307.
• [24] Koda Y. 1992. The role of jasmonic acid and related compounck in the regulation of plant development. Intern. Rev. Cytol. 135: 155-199.
• [25] Lange E., Nowacki J., Saniewski M. 1993. The effect of methyl jasmonate on the ethylene producing system in preclimacteric apples stored in low O2 and high CO2 atmospheres. Plant Res. 1: 9-14.
• [26] Meyer A., Miersch O., Bütther C., Dathe W., Sembdner G. 1984. Occurrence of the plant growth regulator jasmonic acid in plants. J. Plant Growth Regul. 3: 1-8.
• [27] Meyer A., Schmidt J., Gross D., Jensen E., Rudolph A., Vorkefeld S., Sembdner G. 1991. Amino acid conjugates as metabolites of the plant growth regulator dihydrojasmonic acid in barley (Hordeum vulgare). J. Plant Growth Regul. 10: 17-25.
• [28] Miersch O., Preiss A., Sembdner G., Schreiber K. 1987. (+)-Iso-jasmonic acid and related compounds from Botryodiplodia theobromae. Phytochemistry 26: 1037-1039.
• [29] Miersch O., Schneider G., Sembdner G. 1991. Hydroxylated jasmonic acid and related compounds from Botryodiplodia theobromae. Phytochemistry 30: 4049-4051.
• [30] Nowacki J., Saniewski M. and Lange E. 1990. The inhibitory effect of methyl jasmonate on ethylene-forming enzyme activity in apple cultivar Jonathan. Fruit Science Rep. 17: 179-186.
• [31] Olias J.M., Sanz L.C., Perez A.G. 1991. Influencia del jasmonato de metilo en la maduracion post-cosecha de manzana. W: I. Recasens. J. Graell. M. Vendrell (Eds.) Eletileno en la maduracion y post recoleccion de frutos y hortalizas. Papper Kite, Lerida, Spain: 60-67.
• [32] Olias J.M. Sanz L.C., Rios J.J., Perez A.G. 1992. Inhibitory effect of methyl jasmonate on the volatile ester-forming enzyme system in Golden Delicious apples. J. Agr. Food Chem. 40: 266-270.
• [33] Parthier B. 1990. Jasmonates: hormonal regulators or stress factors in leaf senescence? J. Plant Growth Regul. 9: 57-63.
• [34] Parthier B. 1991. Jasmonates, new regulators of plant growth and development: many factors and few hypotheses on their actions. Bot. Acta 104: 446-454.
• [35] Parthier B., Brückner C., Dathe W., Hermann G., Knöfel H.D., Kramell H.M, Lehman J., Miersch O., Reinbothe S., Sembdner G., Wastemack C., zur Nieden U. 1992. Jasmonates: Metabolism, biological activities, and modes of action in senescence and stress responses. W: Progress in plant growth regulation, C.M Karssen, L.C. Vreugdenhil D. (eds), Kluwer Academic Publishers, Dordrecht, Boston, London, str. 276-285.
• [36] Pena-Cortes H., Albrecht T., Prat S., Weiler E.W., Willmitzer L. 1993. Aspirin prevents woundinduced gene expression in tomato leaves by blocking jasmonic acid biosynthesis. Planta 191: 123-128.
• [37] Perez A.G., Sanz C., Richardson D.G., Olias J.M 1993. Methyl jasmonate vapor promotes ß-carotene synthesis and, chlorophyll degradation in Golden Delicious apple peel. J. Plant Growth Regul. 12: 163-167.
• [38] Porat R., Borochov A., Halevy A.H. 1993. Enhancement of petunia and dendrobium flower senescence by jasmonic acid methyl ester is via the promotion of ethylene production. Plant Growth Regul. 13: 297-301.
• [39] Puchalski J., Klim P., Saniewski M., Nowacki J. 1989. Studies of some physiological process during tulip leaf senescence induced by methyl jasmonate. Acta Hort. 251: 107-114.
• [40] Puchalski J., Saniewski M., Klim P. 1985. The effect of methyl jasmonate on tulip leaf senescence and peroxidase patterns. Acta Hort. 167: 247-257.
• [41] Saniewski M. 1983. Kwas jasmonowy i jego ester metylowy - regulatory wzrostu i rozwoju roślin? Wiadomości Bot. 27: 11-120.
• [42] Saniewski M. 1989. Relationship between stimulatory effect of methyl jasmonate on gum formation and ethylene production in tulip stem. Bull. Pol. Acad. Sci., Biol. Sci. 37: 41-48.
• [43] Saniewski M., Czapski J. 1983. The effect of methyl jasmonate on lycoper,e and ß-carotene accumulation in ripening red tomatoes. Experientia 39: 1373-1374.
• [44] Saniewski M., Czapski J. 1985. Stimulatory effect of methyl jasmonate on ethylene production in tomato fruits. Experientia 41: 256-257.
• [45] Saniewski M., Czapski J. 1989. Stimulatory effect of methyl jasmonate on polyphenol oxidase and peroxidase activities, and starch degradation in scales of tulip bulbs. Bull. Pol. Acad. Sci., Biol. Sci. 37: 49-53.
• [46] Saniewski M., Czapski J. 1990. The effect of aminooxyacetic acid on ethylene production induced by methyl jasmonate in tomatoes. Biol. Plant. 32: 218-222.
• [47] Saniewski M., Czapski J., Nowacki J. 1987. Relationship between stimulatory effect of methyl jasmonate on ethylene and 1-aminocyclopropane-1-carboxylic acid content in tomatoes. Biol. Plant. 29: 17-21.
• [48] Saniewski M., Czapski J., Nowacki J., Lange E. 1987. The effect of methyl jasmonate on ethylene and 1-aminocyclopropane-1-carboxylic acid production in apple fruits. Biol. Plant 29: 199-203.
• [49] Saniewski M., Horbowicz M., Czapski J. 1992. The effect of methyl jasmonate on fatty acid and sterol content in tulip stems. J. Plant Physiol. 140: 399-401.
• [50] Saniewski M, Nowacki J., Czapski J. 1987. The effect of methyl jasmonate on ethylene production and ethylen 6-forming enzyme activity in tomatoes. J. Plant Physiol. 129: 175-180.
• [51] Saniewski M., Nowacki J.. Lange E. and Czapski J. 1986. The effect of methyl jasmonate on ethylene and 1-aminocyclopropane-1-carboxylic acid production in preclimacteric and postclimacteric Jonathan apples. Fruit Sci. Rep. 13: 193-200.
• [52] Saniewski M., Nowacki J., Lange E., Czapski J. 1988. The effect of methyl jasmonate on anthocyanin accumulation and ethylene-forming enzyme activity in apples. Fruit Sci. Rep. 15: 97-102.
• [53] Saniewski M., Puchalski J. 1988. The induction of gum formation in the leaf, stem and bulb by methyl jasmonate in tulips. Bull. Pol. Acad. Sci., Biol. Sci. 36: 35-38.
• [54] Saniewski M., Urbanek H., Czapski J. 1987. Effects of methyl jasmonate on ethylene production, chlorophyll degradation, and polygalacturonase activity in tomatoes. J. Plant Physiol 127: 171-181.
• [55] Saniewski M. Węgrzynowicz-Lesiak E. 1994. Is ethylene responsible for gum formation induced by methyl jasmonate in tulip stem? J. Fruit Ornam. Plant Res. w druku
• [56] Saniewski M., Węgrzynowicz-Lesiak:E. 1994. The role of ethylene in methyl jasmonate-induced gum formation in stem of tulips. Acta Hort. w druku.
• [57] Saniewski M., Węgrzynowicz-Lesiak E. 1994. Methyl jasmonate-induced leaf abscission in Kalanchoe blossfeldiana. Acta Hort. w druku.
• [58] Sanz L.C., Femandez-Maculet J.C., Gomez E., Vioque B., Olias J.M. 1993. Effect of methyl jasmonate on ethylene biosynthesis and stomatal closure in olive leaves. Phytochemistry 33: 285-289.
• [59] Sembdner G., Parthier B. 1993. The biochemistry and the physiological and molecular actions of jasmonates. Ann. Rev. Plant Physiol. Plant Mol. Biol. 44: 569-589.
• [60] Tigchelaar E.C., McGlasson W.B., Buescher R.W. 1978. Genetic regulation of tomato ripening. HortScience 13: 508-513.
• [61] Ueda J., Kato J. 1980. Isolation and identification of a senescence-promoting substances from wormwood (Artemisia absinthium L.). Plant Physiol. 66: 246-249.
• [62] Vick B.A., Zimmerman D.C. 1984. Biosynthesis of jasmonic acid by several plant species. Plant Physiol. 75: 458-461.
• [63] Weiler E.W., Albrecht T., Groth B., Xia Z.Q., Luxem M., Liß H., Andert L., Spengler P. 1993. Evidence for the involvement of jasmonates and their octadecanoid precursors in thetendril coiling response of Bryonia dioica. Phytochemistry 32: 591-600.
• [64] Węgrzynowicz E., Saniewski M. 1991. The effect of mechanical wounding of different organs of Hippeastrum x hybr. hort. on ethylene production and ethylene-forming enzyme activity. Bull. Pol. Acad. Sci., Biol. Sci. 39: 373-377.
• [65] Yang S.F., Hoffman N.E. 1984. Ethylene biosynthesis and its regulation in higherplants. Ann. Rev. Plant Physiol. 35: 155-189.