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. 2024 May;67(5):900-912.
doi: 10.1007/s11427-022-2363-y. Epub 2023 Sep 26.

Pseudomonas aeruginosa regulator PvrA binds simultaneously to multiple pseudo-palindromic sites for efficient transcription activation

Yibo Zhu #  1   2 Bingnan Luo #  1 Xingyu Mou #  1 Yingjie Song #  3 Yonghong Zhou  4 Yongbo Luo  1 Bo Sun  5 Youfu Luo  1 Hong Tang  6 Zhaoming Su  7   8 Rui Bao  9
Affiliations

Pseudomonas aeruginosa regulator PvrA binds simultaneously to multiple pseudo-palindromic sites for efficient transcription activation

Yibo Zhu et al. Sci China Life Sci. 2024 May.

Abstract

Tetracycline repressor (TetR) family regulators (TFRs) are the largest group of DNA-binding transcription factors and are widely distributed in bacteria and archaea. TFRs play vital roles in controlling the expression of various genes and regulating diverse physiological processes. Recently, a TFR protein Pseudomonas virulence regulator A (PvrA), was identified from Pseudomonas aeruginosa as the transcriptional activator of genes involved in fatty acid utilization and bacterial virulence. Here, we show that PvrA can simultaneously bind to multiple pseudo-palindromic sites and upregulate the expression levels of target genes. Cryo-electron microscopy (cryo-EM) analysis indicates the simultaneous DNA recognition mechanism of PvrA and suggests that the bound DNA fragments consist of a distorted B-DNA double helix. The crystal structure and functional analysis of PvrA reveal a hinge region that secures the correct domain motion for recognition of the promiscuous promoter. Additionally, our results showed that mutations disrupting the regulatory hinge region have differential effects on biofilm formation and pyocyanin biosynthesis, resulting in attenuated bacterial virulence. Collectively, these findings will improve the understanding of the relationship between the structure and function of the TetR family and provide new insights into the mechanism of regulation of P. aeruginosa virulence.

Keywords: Pseudomonas aeruginosa; TetR; protein- structure; transcription regulator; virulence.

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