The difference in the type of codon-anticodon base pairing at the ribosomal P-site is one of the determinants of the translational rate.

By utilizing an enzymatically reconstructed tRNA variant containing an altered anticodon sequence, we have examined the different biochemical behavior of translation between the Watson-Crick type and the wobble type base pair interactions at the first anticodon position. We have found that the Watson-Crick type base pair has an advantage in translation in contrast to the wobble type base pair by comparing the efficiency of transpeptidation of native tRNA(Phe) (anticodon; GmAA) with its variant tRNA (anticodon; AAA) in the poly(U)-programmed ribosome system. Thomas et al. [Proc. Natl. Acad. Sci. U.S. (1988) 85, 4242-4246] showed that the wobble codon at the ribosomal A-site accepted its cognate tRNA less efficiently than the Watson-Crick base pairing codon. We report here that the wobble interaction at the ribosomal P-site also affected the rate of translation. This variable translational rate may be a mechanism of gene regulation through preferential codon usage.