Specific interference of metalaxyl with endogenous RNA polymerase activity in isolated nuclei fromPhytophthora megasperma f. sp.medicaginis

Abstract

The systemic fungicide metalaxyl preferentially inhibits [3H]uridine incorporation into RNA by mycelium ofPhytophthora megasperma f. sp.medicaginis. Even at high concentrations of metalaxyl inhibition is not complete but circa 80%. Neither uptake of [3H]uridine nor its conversion into UTP is inhibited, indicating that interference with RNA synthesis takes place. Synthesis of RNA that lacks poly(A) sequences is more affected than that of poly(A)+ RNA. Metalaxyl has no effect on the activity of RNA polymerases present in mycelial extracts fromPhytophthora nor on that of polymerases I and II that have been partially purified with a procedure involving precipitation with polyethyleneimine, selective elution of RNA polymerases from the polyethyleneimine precipitate, ammonium sulfate fractionation, and DEAE-Sephadex chromatography. RNA polymerase II in mycelial extracts is half-maximally inhibited by α-amanitin at concentrations below 0.01 ¼g/ml. Both metalaxyl and α-amanitin inhibit endogenous RNA polymerase activity of isolated nuclei ofPhytophthora. According to their sensitivity to metalaxyl and α-amanitin, three types of endogenous activity can be distinguished: (a) an α-amanitin-sensitive type, the activity of which is stimulated by ammonium sulfate; (b) an α-amanitin-insensitive but metalaxyl-sensitive type; and (c) a type insensitive to both metalaxyl andα-amanitin. The first type of activity is characteristic of RNA polymerase II; the identity of the latter two remains to be elucidated. Metalaxyl andα-amanitin do not have any effect on free nuclear polymerases when assayed at a concentration of 50 mM ammonium sulfate with poly[d(A-T)] as exogeneously added template in the presence of actinomycin D to inhibit endogenous RNA polymerase activity. At 250 mM ammonium sulfate the free polymerase activity becomes α-amanitin sensitive but remains metalaxyl insensitive. Metalaxyl apparently inhibits RNA synthesis by specific interference with template-bound andα-amanitin-insensitive RNA polymerase activity. Endogenous polymerase activity of nuclei isolated from a metalaxyl-resistant mutant ofP. megasperma f. sp.medicaginis is not inhibited by metalaxyl, indicating that interference with RNA synthesis is the primary action of metalaxyl and that modification of the target site may lead to resistance.