Topography of 16 S RNA in 30 S subunits and 70 S ribosomes accessibility to cobra venom ribonuclease

A ribonuclease extracted from the venom of the cobra Naja oxiana, which shows an unusual specificity for double-stranded RNA regions, was used to obtain new insight on the topography of Escherichia coli ribosomal 16 S RNA in the 30 S subunit and in the 70 S couple. ³²P-labeled 30 S subunits or reconstituted 70 S tight couples containing ³²P-labeled 16 S RNA have been digested under progressively stronger conditions. The cleavage sites have been precisely localized and the chronology of the hydrolysis process studied.The enzyme cleaves the 16 S RNA within 30 S subunits at 21 different sites, which are not uniformly distributed along the molecule. These results provide valuable information on the 16 S RNA topography and evidence for secondary structure features.The binding of the 50 S subunit markedly reduces the rate of the 16 S RNA hydrolysis and provides protection for several cleavage sites. Four of them are clustered in the 3′-terminal 200 nucleotides of the molecule, one in the middle (at position 772) and one in the 5′ domain (at position 336). Our results provide further evidence that the 3′-terminal and central regions of the RNA chain are close to each other in the ribosome structure and lie at the interface of the two subunits. They also suggest that the 5′ domain is probably not involved exclusively in structure and assembly.