The translational fidelity function of IF3 during transition from the 30 S initiation complex to the 70 S initiation complex

IF3 has a fidelity function in the initiation of translation, inducing the dissociation of fMet-tRNA(fMer) from the 30 S initiation complexes (30SIC) containing a non-canonical initiation triplet (e.g. AUU) in place of a canonical initiation triplet (e.g., AUG). IF2 has a complementary role, selectively promoting initiator tRNA binding to the ribosome. Here, we used parallel rapid kinetics measurements of GTP hydrolysis, Pi release, light-scattering, and changes in intensities of fluorophore-labeled IF2 and fMet-tRNA(fMet) to determine the effects on both 30SIC formation and 30SIC conversion to 70 S initiation complexes (70SIC) of (a) substituting AUG with AUU, and/or (b) omitting IF3, and/or (c) replacing GTP with the non-hydrolyzable analog GDPCP. We demonstrate that the presence or absence of IF3 has, at most, minor effects on the rate of 30SIC formation using either AUG or AUU as the initiation codon, and conclude that the high affinity of IF2 for both 30 S subunit and initiator tRNA overrides any perturbation of the codon-anticodon interaction resulting from AUU for AUG substitution. In contrast, replacement of AUG by AUU leads to a dramatic reduction in the rate of 70SIC formation from 30SIC upon addition of 50 S subunits. Interpreting our results in the framework of a quantitative kinetic scheme leads to the conclusion that, within the overall process of 70SIC formation, the step most affected by substituting AUU for AUG involves the conversion of an initially labile 70 S ribosome into a more stable complex. In the absence of IF3, the difference between AUG and AUU largely disappears, with each initiation codon affording rapid 70SIC formation, leading to the hypothesis that it is the rate of IF3 dissociation from the 70 S ribosome during IC70S formation that is critical to its fidelity function. (c) 2007 Elsevier Ltd. All rights reserved.