| Abstract: | A variant form of Escherichia coli ribosomal protein L7/L12 that lacked residues 42 to 52 (L7/L12 Δ42–52) in the hinge region was shown previously to be completely inactive in supporting polyphenylalanine synthesis although it bound to L7/L12 deficient core particles with the normal stoichiometry of four copies per particle (Oleinikov AV, Perroud B, Wang B, Traut RR (1993) J Biol Chem, 268, 917–922). The result suggested that the hinge confers flexibility that is required for activity because the resulting bent conformation allows the distal C-terminal domain to occupy a location on the body of the large ribosomal subunit proximal to the base of the L7/L12 stalk where elongation factors bind. Factor binding to the hinge-truncated variant was tested. As an alternative strategy to deleting residues from the hinge, seven amino acid residues within the putative hinge region were replaced by seven consecutive proline residues in an attempt to confer increased rigidity that might reduce or eliminate the bending of the molecule inferred to be functionally important. This variant, L7/L12: (Pro)7, remained fully active in protein synthesis. Whereas the binding of both factors in ribosomes containing L7/L12:Δ42–52 was decreased by about 50%, there was no loss of factor binding in ribosomes containing L7/L12:(Pro)7, as predicted from the retention of protein synthesis activity. The factor:ribosome complexes that contained L7/L12:Δ42–52 had the same low level of GTP hydrolysis as the core particles completely lacking L7/L12 and EF-G did not support translocation measured by the reaction of phe-tRNA bounds in hr Asite with puromycin. It is concluded that the hinge region is required for the functionally productive binding of elongation factors, and the defect in protein synthesis reported previously is due to this defect. The variant produced by the introduction of the putative rigid Pro7 sequence retains sufficient flexibility for full activity. |
