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Nucleotide-induced hyper-oligomerization inactivates transcription termination factor ρ

Bing Wang, Nelly Said, Tarek Hilal, Mark Finazzo, M.C. Wahl, Irina Artsimovitch

2025Nature Communications11 citationsDOIOpen Access PDF

Abstract

Bacterial RNA helicase ρ is a genome sentinel that terminates the synthesis of damaged and junk RNAs that are not translated by the ribosome. It is unclear how ρ is regulated during dormancy or stress, when translation is inefficient and RNAs are vulnerable to ρ-mediated release. We use cryogenic electron microscopy, biochemical, and genetic approaches to show that substitutions of residues in the connector between two ρ domains or ADP promote the formation of extended Escherichia coli ρ filaments. By contrast, (p)ppGpp induces the formation of transient ρ dodecamers. Our results demonstrate that ADP and (p)ppGpp nucleotides bound at subunit interfaces inhibit ρ ring closure that underpins the hexamer activation, thus favoring the assembly of inactive higher-order oligomers. Connector substitutions and antibiotics that inhibit RNA and protein syntheses trigger ρ aggregation in the cell. These and other recent data implicate aggregation as a widespread strategy to tune ρ activity.

Topics & Concepts

Transcription factorNucleotideCell biologyChemistryTranscription (linguistics)BiologyBiophysicsGeneticsGeneLinguisticsPhilosophyRNA modifications and cancerRNA Interference and Gene DeliveryRNA Research and Splicing
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