Partial Characterization of Glutathione S-Transferase Isozymes Induced by the Herbicide Safener Benoxacor in Maize.

AUTOR(ES)
RESUMO

The effects of the dichloroacetamide safener benoxacor on maize (Zea mays L. var Pioneer 3906) growth and glutathione S-transferase (GST) activity were evaluated, and GST isozymes induced by benoxacor were partially separated, characterized, and identified. Protection from metolachlor injury was closely correlated with GST activity, which was assayed with metolachlor as a substrate, as benoxacor concentration increased from 0.01 to 1 [mu]M. GST activity continued to increase at higher benoxacor concentrations (10 and 100 [mu]M), but no further protection was observed. Total GST activity with metolachlor as a substrate increased 2.6- to 3.8-fold in response to 1 [mu]M benoxacor treatment. Total GST activity from maize treated with or without 1 [mu]M benoxacor was resolved by fast protein liquid chromatography anion-exchange chromatography into four major activities, designated activity peaks A, B, C, and D in their order of elution. These GST activity peaks were enhanced to varying degrees by benoxacor. Activity peak B showed the least induction, whereas activity peak A was absent constitutively and thus highly induced by benoxacor. In contrast to earlier reports, there appear to be not one, but at least two, major constitutive isozymes (activity peaks A and D) having activity with metolachlor as substrate; there were at least three such isozymes in benoxacor-treated maize (activity peaks A, C, and D). The elution volumes of activity peaks A, B, C, and D were compared with those of partially purified maize GST I and GST II; also, the reactivity of polypeptides in these activity peaks with antisera to GST I or GST I/III (mixture) was evaluated. Evidence from these experiments indicated that activity peak B contained GST I, and activity peak C contained GST II and GST III. Activity peaks A and D contained unique GSTs that may play a major role in metolachlor metabolism and in the safening activity of benoxacor in maize. Isozymes present in activity peaks A and D were not detected in earlier reports because of the very low activity with the artificial substrate 1-chloro-2,4-dinitrobenzene. Immunoblotting experiments also indicated the presence of numerous unidentified GST subunits, including multiple subunits in chromatography fractions containing single peaks of GST activity; this is indicative of the likely complexity and diversity of the maize GST enzyme family.

Documentos Relacionados