Structural basis of the mycobacterial stress-response RNA polymerase auto-inhibition via oligomerization

Self-assembly of macromolecules into higher-order symmetric structures is fundamental for the regulation of biological processes. Higher-order symmetric structure self-assembly by the gene expression machinery, such as bacterial DNA-dependent RNA polymerase (RNAP), has never been reported before. He...

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Bibliographic Details
Published in:Nature communications 2023-01, Vol.14 (1), p.484-484, Article 484
Main Authors: Morichaud, Zakia, Trapani, Stefano, Vishwakarma, Rishi K., Chaloin, Laurent, Lionne, Corinne, Lai-Kee-Him, Joséphine, Bron, Patrick, Brodolin, Konstantin
Format: Article
Language:English
Subjects:
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Allosteric properties
Bacterial Proteins - metabolism
Biological activity
Conformation
Cryoelectron Microscopy
DNA-directed RNA polymerase
DNA-Directed RNA Polymerases - metabolism
Electron microscopy
Gene expression
Hibernation
Holoenzymes - metabolism
Humanities and Social Sciences
Humans
Life Sciences
Macromolecules
multidisciplinary
Mycobacterium tuberculosis - genetics
Oligomerization
Ribonucleic acid
RNA
RNA polymerase
Science
Science (multidisciplinary)
Self-assembly
Sigma Factor - metabolism
Transcription factors
Transcription Factors - metabolism
Transcription initiation
Transcription, Genetic
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Summary:Self-assembly of macromolecules into higher-order symmetric structures is fundamental for the regulation of biological processes. Higher-order symmetric structure self-assembly by the gene expression machinery, such as bacterial DNA-dependent RNA polymerase (RNAP), has never been reported before. Here, we show that the stress-response σ B factor from the human pathogen, Mycobacterium tuberculosis , induces the RNAP holoenzyme oligomerization into a supramolecular complex composed of eight RNAP units. Cryo-electron microscopy revealed a pseudo-symmetric structure of the RNAP octamer in which RNAP protomers are captured in an auto-inhibited state and display an open-clamp conformation. The structure shows that σ B is sequestered by the RNAP flap and clamp domains. The transcriptional activator RbpA prevented octamer formation by promoting the initiation-competent RNAP conformation. Our results reveal that a non-conserved region of σ is an allosteric controller of transcription initiation and demonstrate how basal transcription factors can regulate gene expression by modulating the RNAP holoenzyme assembly and hibernation. Biological processes can be regulated via oligomerization of macromolecules into high-order symmetric structures. Here, authors reported high-order structure of RNA polymerase and its role in regulation of gene expression in pathogenic bacterium.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-36113-y