Purification and properties of the three o-diphenol-O-methyltransferases of tobacco leaves |
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Authors: | Jean Collendavelloo Michel Legrand Pierrette Geoffroy Joelle Barthelemy Bernard Fritig |
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Institution: | Institut de Biologie Moléculaire et Cellulaire du C.N.R.S., 15 rue Descartes, 67000 Strasbourg, France |
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Abstract: | Three o-diphenol-O-methyltransferases (OMTs I, II and III) which catalyse the monomethylation of various o-diphenols using S-adenosyl-L-methionine as methyl donor were isolated and purified about 210-, 70-, and 70-fold, respectively, from leaves of Nicotiana tabacum cv Samsun NN. They had slightly different MWs (93 000, 90 000 and 100000 for OMTs 1, 11 and Ill respectively) and slightly different pls (5.21, 4.80 and 4.74). The activities of all three enzymes were very stable when stored at 0° but they had different sensitivities to ultrafiltration and to heat treatment (45°). In none of the enzymes was there any change in reaction rate when Mg2+ ions or EDTA were added. The three enzymes exhibited very high and similar affinities towards the substrate S-adenosylmethionine and the reaction product S-adenosylhomocysteine, but they differed markedly in specificities towards the various o-diphenolic substrates. Relative methylation efficiencies were estimated from the calculation of the V/Km ratios that led to the following decreasing order of best substrates: 5-hydroxyferulic acid > caffeic acid > homo-catechol > esculetin > protocatechuic aldehyde > catechol > hydrocaffeic acid > chlorogenic acid, for OMT I, and: homocatechol > catechol > protocatechuic aldehyde > esculetin ≈ cafreic acid > 5-hydroxyferulic acid, for both OMTsIIandIII. Most of the o-diphenols assayed were methylated exclusively in the meta position, but all three tobacco OMTs showed both para and meta-directing activities with protocatechuic acid, protocatechuic aldehyde and escultin. Since Km values towards the two position of methylation were always found to be identical, we conclude that each enzyme bears only one catalytic site. |
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Keywords: | Solanaceae leaves enzyme phenylpropanoid metabolism lignification |
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