Structure of single-stranded nucleic acids in the presence of ribosomal protein S1.

We have developed a new method for mounting nucleic acids and nucleic acidprotein complexes for high-resolution electron microscopy, and have used it to characterize the interaction between ribosomal protein S1 and single-stranded nucleic acids. We find that SI unwinds most, but not all of the secondary structure present in MS2 RNA and øX174 viral DNA. The binding of S1 to DNA and RNA is not highly co-operative, and has a stoichiometry of one S1 per 10 to 15 nucleotides. We have not observed any tendency for S1 nucleic acid complexes to form aggregates in either 0·01 m-Na⁺ or 0·1 m-Na⁺. An analogous protein isolated from the 30 S ribosomal subunit of Caulobacter crescentus is indistinguishable from Escherichia coli S1 in these studies. The mono-N-ethylmaleimide derivative of E. coli S1 will bind to both MS2 RNA and øX174 viral DNA with a stoichiometry of one N-ethylmaleimide-S1 per 10 to 15 nucleotides, but will not unwind the secondary structure of either of them.