Abstract
Abstract The selC gene of Escherichia coli codes for a novel tRNA species which is aminoacylated by L-serine and is required for the insertion of selenocysteine into proteins (Leinfelder, W., Zehelein, E., Mandrand-Berthelot, M.-A., and Bock, A. (1988) Nature 331, 723-725). As a first step toward the elucidation of the postulated pathway for selenocysteine formation from an L-serine residue esterified to tRNA, we have examined whether an increase in the selC gene dosage allows the demonstration of selenocysteyl-tRNA formation in vivo. To this end, cells of an E. coli strain carrying selC on a multicopy plasmid were labeled with [75Se]selenite, their tRNA was isolated and deacylated, and the hydrolysate was analyzed by thin layer chromatography and ion exchange chromatography. Both methods unequivocally demonstrated that the increase in the selC gene product concentration correlated with an augmented level of selenocysteine bound to tRNA. The formation of selenocysteine depended on the presence of functional products of the selA and selD genes but not of the selB gene. The selB gene product, therefore, may have a function in the decoding step itself.
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