Nucleic acid helix-unwinding properties of ribosomal protein S1 and the role of S1 in mRNA binding to ribosomes.

Abstract

The presence of ribosomal protein S1 in 30S ribosomes is indispensable for the formation of 30S initiation complexes with natural mRNA [in Escherichia coli]. The 30S subunits lacking S1 retain activity with AUG as mRNA and are also active in poly(rU)-directed binding of the Phe-tRNA. Isolated protein S1 stoichiometrically disrupts the secondary structure of helical and stacked single-stranded polynucleotides and converts them into their fully or partially denatured forms. A mono-N-ethylmaleimide derivative of S1 is nearly devoid of any RNA helix-unwinding properties but is readily incorporated into 30S subunits deficient in S1. The resulting N-ethylmaleimide-S1-containing 30S subunits are completely inactive in the binding of [phage] MS2 [3H]RNA and in the formation of an initiation complex with MS2 RNA as mRNA. They retain activity in the binding of the initiator fMet-tRNA in response to the trinucleotide AUG and in the binding of Phe-tRNA in response to poly(U). They also retain the capacity to bind 50S subunits and to form 70S couples. A correlation probably exists between the RNA helix-unwinding capacity of isolated S1 and the function of S1 in the ribosomal binding of natural mRNA when the protein becomes part of the 30S subunit.