Nucleoside and nucleotide inactivation of R17 coat protein: evidence for a transient covalent RNA-protein bond

Abstract

Phage R17 coat protein forms a specific complex with a 21-nucleotide RNA hairpin containing the initiation site for the phage replicase gene. The RNA binding activity of the protein is inhibited by prior incubation with 5-bromouridine (BrU). The inactivation occurs with pseudo-1st-order kinetics, and the inactive protein is stable to dilution. RNA binding activity of the BrU-inactivated protein is restored upon incubation with dithiothreitol. Inactivation of coat protein by N-ethylmaleimide or p-(chloromercuri)-benzenesulfonate indicates that a cysteine residue is located near the RNA binding site. Since 5-bromodeoxyuridine does not inactivate coat protein, a specific binding event appears to be required before inactivation can occur. Unmodified cytidine nucleotides also inactivate coat protein, with a specificity similar to the modified analogs. These results are discussed with regard to the formation of a transient covalent RNA-protein bond.