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Structural basis of promoter recognition by Staphylococcus aureus RNA polymerase

Linggang Yuan, Qingyang Liu, Liqiao Xu, Bing Wu, Yu Feng

2024Nature Communications7 citationsDOIOpen Access PDF

Abstract

Abstract Bacterial RNAP needs to form holoenzyme with σ factors to initiate transcription. While Staphylococcus aureus σ A controls housekeeping functions, S. aureus σ B regulates virulence, biofilm formation, persistence, cell internalization, membrane transport, and antimicrobial resistance. Besides the sequence difference, the spacers between the −35 element and −10 element of σ B regulated promoters are shorter than those of σ A regulated promoters. Therefore, how σ B recognizes and initiates transcription from target promoters can not be inferred from that of the well studied σ. Here, we report the cryo-EM structures of S. aureus RNAP-promoter open complexes comprising σ A and σ B , respectively. Structural analyses, in combination with biochemical experiments, reveal the structural basis for the promoter specificity of S. aureus transcription. Although the −10 element of σ A regulated promoters is recognized by domain σ A 2 as single-stranded DNA, the −10 element of σ B regulated promoters is co-recognized by domains σ B 2 and σ B 3 as double-stranded DNA, accounting for the short spacers of σ B regulated promoters. S. aureus RNAP is a validated target of antibiotics, and our structures pave the way for rational drug design targeting S. aureus RNAP.

Topics & Concepts

PromoterRNA polymeraseTranscription (linguistics)Staphylococcus aureusSigma factorBiologyDNATranscription factorCell biologyGeneMicrobiologyRNAGeneticsGene expressionBacteriaPhilosophyLinguisticsBacterial Genetics and BiotechnologyRNA and protein synthesis mechanismsBacteriophages and microbial interactions
Structural basis of promoter recognition by Staphylococcus aureus RNA polymerase | Litcius