The prohead connector of the bacteriophage luminal diameter 29 DNA packaging machine was reconstructed with the small RNA that regulates DNA packaging in vitro. The complete sequence of the 120 nucleotide RNA proved its origination from the promoter PE1(A1) of the left early region of phi 29 DNA, the end packaged first during assembly. The prohead RNA was clearly distinct from eubacterial 5S rRNA in sequence and composition.
We have surveyed 14 different toxic and nontoxic ribosome-inactivating proteins from plants for the ability to act on the RNA of the eucaryotic 60 S ribosomal subunit. All of these proteins act to introduce a specific modification into 26-28 S RNA which renders the RNA sensitive to cleavage by aniline. Sequence analysis of the 5'-termini of the fragments produced by ricin and saporin following aniline cleavage indicate that both proteins possess identical specificity. Our observations support the conclusion of Endo and Tsurugi (J. Biol. Chem. 262, 8128-8130, 1987) that ricin is a specific N-glycosidase and we have located the site of this cleavage by direct sequence analysis. Our results further suggest that all plant ribosome-inactivating proteins function as specific N-glycosidases with the same specificity.
We previously demonstrated (Guo et al., 1987. Nucl. Acids Res. 15, 7081-7090) that purified proheads of bacteriophage phi 29 contain an RNA of 120 bases which is essential for DNA packaging. Here we report that this RNA exists primarily as a polymer of ca. 174 residues in phage-infected cells and that ca. 54 bases are cleaved from its 3'-terminus by adventitious nucleases during the purification of proheads. The long and short forms of the RNA had similar activity in in vitro DNA packaging and phage assembly. We report the sequence of the long form of the RNA and show that similar long and short forms can be isolated from the proheads of the phi 29 relatives phi 21, phi 15 and SF5. The concentration dependence in the reconstitution of RNA-free proheads suggests that one copy of the RNA is sufficient to restore DNA packaging activity to RNA-free proheads. However, quantitative measurements indicate that 5 to 6 copies of the RNA are present on proheads isolated from phage-infected cells.
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