Pleiotropic effects of mutations at positions 13 and 914 in Escherichia coli 16S ribosomal RNA

A time-resolved investigation of ribosomal subunit association

The notion that the ribosome is dynamic has been supported by various biochemical techniques, as well as by differences observed in high-resolution structures of ribosomal complexes frozen in various functional states. Yet, the mechanisms and extent of rRNA dynamics are still largely unknown. We have used a novel, fast chemical-modification technique to provide time-resolved details of 16 S rRNA structural changes that occur as bridges are formed between the ribosomal subunits as they associate. Association of different 16 S rRNA regions was found to be a sequential, multi-step process involving conformational rearrangements within the 30 S subunit. Our results suggest that key regions of 16 S rRNA, necessary for decoding and tRNA A-site binding, are structurally altered in a time-dependent manner by association with the 50 S ribosomal subunits.

Structure of 18 S ribosomal RNA in native 40 S ribosomal subunits

We have analyzed the structure of 18 S rRNA in native 40 S subunits using chemical modification followed by primer extension. The native subunits were modified using the single-stranded specific reagents dimethyl sulfate and 1-cyclohexyl-3-(2-morpholinoethyl)carbodiimide metho-p-toluenesulfonate. The modification pattern of the 18 S rRNA was compared to that obtained from derived 40 S subunits prepared by dissociation of unprogrammed 80 S ribosomes. Eighteen nucleotides showed different accessibility to the chemical probes in derived and native subunits. Half of these nucleotides were found in the central domain of the rRNA between the 1060 loop and the central pseudoknot. The remaining nucleotides were located in two clusters in the 5'- and 3'-domains of the 18 S rRNA. Derived 40 S subunits are free from non-ribosomal proteins. In contrast, native subunits are intermediates in protein synthesis initiation and contain stoichiometric amounts of initiation factor 3 (Sundkvist, I. C., and Staehelin, T. (1975) J. Mol. Biol. 99, 401-418). The possible role of this factor in altering the structure of 18 S rRNA in the native 40 S subunits is discussed.