Messenger RNA interferase RelE controls relBE transcription by conditional cooperativity

Prokaryotic toxin-antitoxin (TA) loci consist of two genes in an operon that encodes a metabolically stable toxin and an unstable antitoxin. The antitoxin neutralizes its cognate toxin by forming a tight complex with it. In all cases known, the antitoxin autoregulates TA operon transcription by bind...

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Veröffentlicht in:	Molecular microbiology 2008-08, Vol.69 (4), p.841-857
Hauptverfasser:	Overgaard, Martin, Borch, Jonas, Jørgensen, Mikkel G, Gerdes, Kenn
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Sprache:	eng
Schlagworte:	Bacterial Toxins - genetics Bacterial Toxins - metabolism Binding Sites Biological and medical sciences Escherichia coli - genetics Escherichia coli - metabolism Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Fundamental and applied biological sciences. Psychology Gene Expression Regulation, Bacterial Homeostasis Microbiology Operator Regions, Genetic Operon Promoter Regions, Genetic Repressor Proteins - genetics Repressor Proteins - metabolism RNA, Messenger - metabolism Transcription, Genetic
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container_title	Molecular microbiology
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creator	Overgaard, Martin Borch, Jonas Jørgensen, Mikkel G Gerdes, Kenn
description	Prokaryotic toxin-antitoxin (TA) loci consist of two genes in an operon that encodes a metabolically stable toxin and an unstable antitoxin. The antitoxin neutralizes its cognate toxin by forming a tight complex with it. In all cases known, the antitoxin autoregulates TA operon transcription by binding to one or more operators in the promoter region while the toxin functions as a co-repressor of transcription. Interestingly, the toxin can also stimulate TA operon transcription. Here we analyse mechanistic aspects of how RelE of Escherichia coli can function both as a co-repressor and as a derepressor of relBE transcription. When RelB was in excess to RelE, two trimeric RelB₂ RelE complexes bound cooperatively to two adjacent operator sites in the relBE promoter region and repressed transcription. In contrast, RelE in excess stimulated relBE transcription and released the RelB₂ RelE complex from operator DNA. A mutational analysis of the operator sites showed that RelE in excess counteracted cooperative binding of the RelB₂ RelE complexes to the operator sites. Thus, RelE controls relBE transcription by conditional cooperativity.
doi_str_mv	10.1111/j.1365-2958.2008.06313.x
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The antitoxin neutralizes its cognate toxin by forming a tight complex with it. In all cases known, the antitoxin autoregulates TA operon transcription by binding to one or more operators in the promoter region while the toxin functions as a co-repressor of transcription. Interestingly, the toxin can also stimulate TA operon transcription. Here we analyse mechanistic aspects of how RelE of Escherichia coli can function both as a co-repressor and as a derepressor of relBE transcription. When RelB was in excess to RelE, two trimeric RelB₂ RelE complexes bound cooperatively to two adjacent operator sites in the relBE promoter region and repressed transcription. In contrast, RelE in excess stimulated relBE transcription and released the RelB₂ RelE complex from operator DNA. A mutational analysis of the operator sites showed that RelE in excess counteracted cooperative binding of the RelB₂ RelE complexes to the operator sites. 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The antitoxin neutralizes its cognate toxin by forming a tight complex with it. In all cases known, the antitoxin autoregulates TA operon transcription by binding to one or more operators in the promoter region while the toxin functions as a co-repressor of transcription. Interestingly, the toxin can also stimulate TA operon transcription. Here we analyse mechanistic aspects of how RelE of Escherichia coli can function both as a co-repressor and as a derepressor of relBE transcription. When RelB was in excess to RelE, two trimeric RelB₂ RelE complexes bound cooperatively to two adjacent operator sites in the relBE promoter region and repressed transcription. In contrast, RelE in excess stimulated relBE transcription and released the RelB₂ RelE complex from operator DNA. A mutational analysis of the operator sites showed that RelE in excess counteracted cooperative binding of the RelB₂ RelE complexes to the operator sites. Thus, RelE controls relBE transcription by conditional cooperativity.</description><subject>Bacterial Toxins - genetics</subject><subject>Bacterial Toxins - metabolism</subject><subject>Binding Sites</subject><subject>Biological and medical sciences</subject><subject>Escherichia coli - genetics</subject><subject>Escherichia coli - metabolism</subject><subject>Escherichia coli Proteins - genetics</subject><subject>Escherichia coli Proteins - metabolism</subject><subject>Fundamental and applied biological sciences. 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subjects	Bacterial Toxins - genetics Bacterial Toxins - metabolism Binding Sites Biological and medical sciences Escherichia coli - genetics Escherichia coli - metabolism Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Fundamental and applied biological sciences. Psychology Gene Expression Regulation, Bacterial Homeostasis Microbiology Operator Regions, Genetic Operon Promoter Regions, Genetic Repressor Proteins - genetics Repressor Proteins - metabolism RNA, Messenger - metabolism Transcription, Genetic
title	Messenger RNA interferase RelE controls relBE transcription by conditional cooperativity
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