2 resultados para Picudo rojo

em National Center for Biotechnology Information - NCBI


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Regulatory protein p4 from Bacillus subtilis phage phi 29 represses the strong viral A2c promoter (PA2c) by preventing promoter clearance; it allows RNA polymerase to bind to the promoter and form an initiated complex, but the elongation step is not reached. Protein p4 binds at PA2c immediately upstream from RNA polymerase; repression involves a contact between both proteins that holds the RNA polymerase at the promoter. This contact is held mainly through p4 residue Arg120, which is also required for activation of the phi 29 late A3 promoter. We have investigated which region of RNA polymerase contacts protein p4 at PA2c. Promoter repression was impaired when a reconstituted RNA polymerase lacking the 15 C-terminal residues of the alpha subunit C-terminal domain was used; this polymerase was otherwise competent for transcription. Binding cooperativity assays indicated that protein p4 cannot interact with this mutant RNA polymerase at PA2c. Protein p4 could form a complex at PA2c with purified wild-type alpha subunit, but not with a deletion mutant lacking the 15 C-terminal residues. Our results indicate that protein p4 represses PA2c by interacting with the C-terminal domain of the alpha subunit of RNA polymerase. Therefore, this domain of the alpha subunit can receive regulatory signals not only from transcriptional activators, but from repressors also.

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Regulatory protein p4 from Bacillus subtilis phage phi29 activates transcription from the viral late A3 promoter by stabilizing sigmaA-RNA polymerase at the promoter as a closed complex. Activation requires an interaction between protein p4 and RNA polymerase mediated by the protein p4 carboxyl-end, mainly through residue Arg-120. We have obtained derivatives of B. subtilis RNA polymerase alpha subunit with serial deletions at the carboxyl-end and reconstituted RNA polymerase holoenzymes harboring the mutant alpha subunits. Protein p4 promoted the binding of purified B. subtilis RNA polymerase alpha subunit to the A3 promoter in a cooperative way. Binding was abolished by deletion of the last 15 amino acids of the alpha subunit. Reconstituted RNA polymerases with deletions of 15 to 59 residues at the alpha subunit carboxyl-end could recognize and transcribe viral promoters not activated by protein p4, but they had lost their ability to recognize the A3 promoter in the presence of protein p4. In addition, these mutant reconstituted RNA polymerases could not interact with protein p4. We conclude that protein p4 activation of the viral A3 promoter requires an interaction between the carboxyl-end of protein p4 and the carboxyl-end of the alpha subunit of B. subtilis RNA polymerase that stabilizes the RNA polymerase at the promoter.