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The δ subunit and NTPase HelD institute a two-pronged mechanism for RNA polymerase recycling

Hao-Hong Pei, Tarek Hilal, Zhuo A. Chen, Yongheng Huang, Yuan Gao, Nelly Said, Bernhard Loll, Juri Rappsilber, Georgiy A. Belogurov, Irina Artsimovitch, M.C. Wahl

2020Nature Communications52 citationsDOIOpen Access PDF

Abstract

Abstract Cellular RNA polymerases (RNAPs) can become trapped on DNA or RNA, threatening genome stability and limiting free enzyme pools, but how RNAP recycling into active states is achieved remains elusive. In Bacillus subtilis , the RNAP δ subunit and NTPase HelD have been implicated in RNAP recycling. We structurally analyzed Bacillus subtilis RNAP-δ-HelD complexes. HelD has two long arms: a Gre cleavage factor-like coiled-coil inserts deep into the RNAP secondary channel, dismantling the active site and displacing RNA, while a unique helical protrusion inserts into the main channel, prying the β and β′ subunits apart and, aided by δ, dislodging DNA. RNAP is recycled when, after releasing trapped nucleic acids, HelD dissociates from the enzyme in an ATP-dependent manner. HelD abundance during slow growth and a dimeric (RNAP-δ-HelD) 2 structure that resembles hibernating eukaryotic RNAP I suggest that HelD might also modulate active enzyme pools in response to cellular cues.

Topics & Concepts

RNA polymeraseBacillus subtilisRNADNAPolymeraseProtein subunitEnzymeActive siteChemistryCell biologyBiologyBiochemistryBiophysicsGeneticsBacteriaGeneBacterial Genetics and BiotechnologyRNA and protein synthesis mechanismsRNA Research and Splicing
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