Bacteriol . Roy Magnuson and Michael B . Yarmolinsky by Phd and Doc Corepression of the P 1 Addiction Operon
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منابع مشابه
Corepression of the P1 addiction operon by Phd and Doc.
The P1 plasmid addiction operon encodes Doc, a toxin that kills plasmid-free segregants, and Phd, an unstable antidote that neutralizes the toxin. Additionally, these products repress transcription of the operon. The antidote binds to two adjacent sites in the promoter. Here we present evidence concerning the regulatory role of the toxin, which we studied with the aid of a mutation, docH66Y. Th...
متن کاملModular organization of the Phd repressor/antitoxin protein.
The P1 plasmid addiction operon is a compact genetic structure consisting of promoter, operator, antitoxin gene (phd), and toxin gene (doc). The 73-amino-acid antitoxin protein, Phd, has two distinct functions: it represses transcription (by binding to its operator) and it prevents host death (by binding and neutralizing the toxin). Here, we show that the N terminus of Phd is required for repre...
متن کاملCharacterization of the Phd repressor-antitoxin boundary.
The P1 plasmid addiction operon (a classic toxin-antitoxin system) encodes Phd, an unstable 73-amino-acid repressor-antitoxin protein, and Doc, a stable toxin. It was previously shown by deletion analysis that the N terminus of Phd was required for repressor activity and that the C terminus was required for antitoxin activity. Since only a quarter of the protein or less was required for both ac...
متن کاملAllostery and Intrinsic Disorder Mediate Transcription Regulation by Conditional Cooperativity
Regulation of the phd/doc toxin-antitoxin operon involves the toxin Doc as co- or derepressor depending on the ratio between Phd and Doc, a phenomenon known as conditional cooperativity. The mechanism underlying this observed behavior is not understood. Here we show that monomeric Doc engages two Phd dimers on two unrelated binding sites. The binding of Doc to the intrinsically disordered C-ter...
متن کاملPercolation of the phd repressor-operator interface.
Transcription of the P1 plasmid addiction operon, a prototypical toxin-antitoxin system, is negatively autoregulated by the products of the operon. The Phd repressor-antitoxin protein binds to 8-bp palindromic Phd-binding sites in the promoter region and thereby represses transcription. The toxin, Doc, mediates cooperative interactions between adjacent Phd-binding sites and thereby enhances rep...
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تاریخ انتشار 1998