Crystal Structure of the Nucleoid-associated Protein Fis (PA4853) from Pseudomonas Aeruginosa

Overview

Journal Acta Crystallogr F Struct Biol Commun

Specialty Chemistry

Date 2020 May 2

PMID 32356522

Citations 1

Authors

Juan Zhou

Zengqiang Gao

Heng Zhang

Yuhui Dong

Affiliations

Soon will be listed here.

Abstract

Factor for inversion stimulation (Fis) is a versatile bacterial nucleoid-associated protein that can directly bind and bend DNA to influence DNA topology. It also plays crucial roles in regulating bacterial virulence factors and in optimizing bacterial adaptation to various environments. Fis from Pseudomonas aeruginosa (PA4853, referred to as PaFis) has recently been found to be required for virulence by regulating the expression of type III secretion system (T3SS) genes. PaFis can specifically bind to the promoter region of exsA, which functions as a T3SS master regulator, to regulate its expression and plays an essential role in transcription elongation from exsB to exsA. Here, the crystal structure of PaFis, which is composed of a four-helix bundle and forms a homodimer, is reported. PaFis shows remarkable structural similarities to the well studied Escherichia coli Fis (EcFis), including an N-terminal flexible loop and a C-terminal helix-turn-helix (HTH) motif. However, the critical residues for Hin-catalyzed DNA inversion in the N-terminal loop of EcFis are not conserved in PaFis and further studies are required to investigate its exact role. A gel-electrophoresis mobility-shift assay showed that PaFis can efficiently bind to the promoter region of exsA. Structure-based mutagenesis revealed that several conserved basic residues in the HTH motif play essential roles in DNA binding. These structural and biochemical studies may help in understanding the role of PaFis in the regulation of T3SS expression and in virulence.

Citing Articles

Virtual Screening and Meta-Analysis Approach Identifies Factors for Inversion Stimulation (Fis) and Other Genes Responsible for Biofilm Production in : A Corneal Pathogen.

Emeka P, Badger-Emeka L, Thirugnanasambantham K Curr Issues Mol Biol. 2024; 46(11):12931-12950.

PMID: 39590364 PMC: 11592581. DOI: 10.3390/cimb46110770.

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