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Mechanism for the Regulated Control of Bacterial Transcription Termination by a Universal Adaptor Protein.


ABSTRACT: NusG/Spt5 proteins are the only transcription factors utilized by all cellular organisms. In enterobacteria, NusG antagonizes the transcription termination activity of Rho, a hexameric helicase, during the synthesis of ribosomal and actively translated mRNAs. Paradoxically, NusG helps Rho act on untranslated transcripts, including non-canonical antisense RNAs and those arising from translational stress; how NusG fulfills these disparate functions is unknown. Here, we demonstrate that NusG activates Rho by assisting helicase isomerization from an open-ring, RNA-loading state to a closed-ring, catalytically active translocase. A crystal structure of closed-ring Rho in complex with NusG reveals the physical basis for this activation and further explains how Rho is excluded from translationally competent RNAs. This study demonstrates how a universally conserved transcription factor acts to modulate the activity of a ring-shaped ATPase motor and establishes how the innate sequence bias of a termination factor can be modulated to silence pervasive, aberrant transcription.

SUBMITTER: Lawson MR 

PROVIDER: S-EPMC6151137 | biostudies-literature | 2018 Sep

REPOSITORIES: biostudies-literature

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Mechanism for the Regulated Control of Bacterial Transcription Termination by a Universal Adaptor Protein.

Lawson Michael R MR   Ma Wen W   Bellecourt Michael J MJ   Artsimovitch Irina I   Martin Andreas A   Landick Robert R   Schulten Klaus K   Berger James M JM  

Molecular cell 20180816 6


NusG/Spt5 proteins are the only transcription factors utilized by all cellular organisms. In enterobacteria, NusG antagonizes the transcription termination activity of Rho, a hexameric helicase, during the synthesis of ribosomal and actively translated mRNAs. Paradoxically, NusG helps Rho act on untranslated transcripts, including non-canonical antisense RNAs and those arising from translational stress; how NusG fulfills these disparate functions is unknown. Here, we demonstrate that NusG activa  ...[more]

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