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Structural basis of copper-efflux-regulator-dependent transcription activation

Wei Shi, Baoyue Zhang, Yanan Jiang, Chang Liu, Wei Zhou, Ming Chen, Yang Yang, Yangbo Hu, Bin Liu

2021iScience28 citationsDOIOpen Access PDF

Abstract

The copper efflux regulator (CueR), a representative member of mercury resistance regulator (MerR) family metalloregulators, controls expression of copper homeostasis-regulating genes in bacteria. The mechanism of transcription activation by CueR and other MerR family regulators is bending the spacer domain of promoter DNA. Here, we report the cryo-EM structures of the intact CueR-dependent transcription activation complexes. The structures show that CueR dimer bends the 19-bp promoter spacer to realign the −35 and −10 elements for recognition by σ 70 -RNA polymerase holoenzyme and reveal a previously unreported interaction between the DNA-binding domain (DBD) from one CueR subunit and the σ 70 nonconserved region (σNCR). Functional studies have shown that the CueR-σNCR interaction plays an auxiliary role in CueR-dependent transcription, assisting the activation mechanism of bending promoter DNA by CueR dimer. Because DBDs are highly conserved in sequence and structure, this transcription-activating mechanism could be generally used by MerR family regulators.

Topics & Concepts

Transcription (linguistics)RegulatorDNATranscription factorProtein subunitPromoterBiologyCell biologyGeneticsGeneBacterial transcriptionChemistryGene expressionPhilosophyLinguisticsTrace Elements in HealthBacterial Genetics and BiotechnologyAntibiotic Resistance in Bacteria
Structural basis of copper-efflux-regulator-dependent transcription activation | Litcius