In order to study how Escherichia coli leucyl-tRNA synthetase recognizes tRNA(Leu) and discriminates it from the other two class II tRNAs, tRNA(Ser) and tRNA(Tyr), various mutations were introduced into class II tRNA transcripts. The discriminator base A73, but not the anticodon sequence, was found to serve as a critical recognition element of tRNA(Leu). A base substitution at the invariant nucleotide A14, but not at any of the other nucleotides characteristic of the E. coli tRNA(Leu) isoacceptors among the three class II tRNAs, caused significantly damaged aminoacylation with leucine. A two base-pair deletion in the long variable arm also resulted in no significant decrease of activity. Transplanting the three tertiary elements characteristic of E. coli tRNA(Leu) (i.e. the location of the G18G19 sequence in the D-loop, the A15 U48 base-pair and the stem pairing pattern of the long variable arm) besides the discriminator base change introduced the leucine charging activity in terms of Vmax/Km, up to 0.1 of that for the normal sequence of tRNA(Leu) into both tRNA(Ser) and tRNA(Tyr). These results indicate that A73 and A14 (or its vicinity) are involved in recognition by leucyl-tRNA synthetase, and that several tertiary elements play a significant role in the discrimination of tRNA(Leu) from the other two class II tRNAs.