Structural dynamics of bacterial ribosomes. III. Quantitative conversion of vacant ribosome couples into an initiation complex with R17 RNA as messenger

The arrangement of the DNA sequences coding for the ribosomal 5.8 S RNA in the genome of Xenopus laevis has been studied. In Xenopus the 5.8 S cistrons, like the ribosomal 28 S and 18 S cistrons, are reiterated some 600-fold (Clarkson et al., 1973a). When banded in caesium chloride, the 5.8 S cistrons separate from somatic DNA of high molecular weight and band as a distinct satellite, indicating a clustered arrangement in the genome. The buoyant density of this satellite (1.723 g cm^?3) corresponds to that of the ribosomal DNA satellite.It has previously been shown that the ribosomal DNA sequences have been deleted from the genome of the anucleotide Xenopus mutant. Our findings, first that the anucleolate mutant does not synthesize 5.8 S RNA and second that somatic DNA from this mutant does not detectably hybridize with 5.8 S RNA, demonstrate that the 5.8 S cistronic complement has been similarly deleted. This finding supports our contention that 5.8 S sequences are clustered on chromosomal DNA and further suggests that they are located close to or within the rDNA complements in the nucleolus organizer region.Pre-hybridization to saturation with unlabelled 5.8 S RNA results in only a slight increase in the buoyant density of denatured 5.8 S coding sequences from low molecular weight DNA. Since a contiguous arrangement of the 5.8 S sequences would give rise to a much larger increase in density, it follows that, although clustered, the sequences must be intercalated within stretches of other DNA. By contrast, pre-hybridization of the somatic DNA with unlabelled 28 S or 18 S ribosomal RNAs results in large shifts in the buoyant density of the 5.8 S sequences. These shifts indicate that the 5.8 S sequences are closely linked to both 28 S and 18 S coding sequences.It is concluded that the 5.8 S cistrons are interspersed along the ribosomal DNA sense strand and that each is located together with a 28 S and an 18 S cistron in a ribosomal repeat unit. Estimates, obtained from the pre-hybridization experiments, of the separations between the 5.8 S and the 28 S and 18 S sequences, are combined in a model of the ribosomal repeat unit. In this model the 5.8 S cistron is located within the transcribed spacer which links the 28 S and 18 S coding sequences.