Specificity of translational regulation by two DNA-binding proteins

Abstract

The gene V protein of the filamentous bacteriophages fl, fd and M13, and the gene 32 protein of bacteriophage T4 share the property of binding strongly and co-operatively to single-stranded nucleic acids, especially DNA. Moreover, both are capable of repressing the translation of specific mRNAs (gene 32 protein its own, and gene V protein that of the filamentous phage gene II), both in vivo and in vitro. If the mechanism of repression by either of these proteins were based solely on its ability to bind single strands co-operatively, then the other would be expected to mimic or interfere with its effect in vitro. We have found no such mimicry or interference, even at protein concentrations high enough to have substantial non-specific effects on translation. This suggests that the sites of repression on the mRNAs must offer something other than simple "unstructuredness" for binding and repression to occur.