Bend induced by the phage phi 29 transcriptional activator in the viral late promoter is required for activation

Abstract

Transcription initiation from the Bacillus subtilis phage phi 29 late A3 promoter requires the viral protein p4, a transcriptional activator. Protein p4 binds to a region of the A3 promoter, located between nucleotides -50 and -100 relative to the transcription start site, that presents a sequence-directed curvature. This curvature is enhanced when protein p4 binds to the promoter. A number of deletion mutants at the carboxyl end of protein p4 have been constructed and their behavior as transcriptional activators of the late A3 promoter has been investigated. The binding of these deletion mutants to the late A3 promoter has been analyzed by gel retardation, DNase I footprinting, methylation interference and circular permutation assays. The results suggest that the last 12 amino acid residues of protein p4, six of which are positively charged, although not involved in the specific recognition of the promoter are responsible for part of the bend induced by protein p4 in its binding site. Evidence is presented which suggests that full induction of this curvature is needed for the transcription activation process. A model is proposed for protein p4 interaction with the A3 promoter, in which the bend is induced in two steps: first, two monomers of protein p4 bind to the inverted recognition sequences, subsequent interaction between them generating a bend between these sequences; second, the highly basic carboxyl terminus of protein p4 establishes non-specific electrostatic interactions with the DNA backbone inducing a bend at both ends of the protein p4 binding region.