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Abstract
HigB-HigA is a bacterial toxin–antitoxin (TA) system in which the antitoxin HigA can mask the endoribonuclease activity of toxin HigB and repress the transcription of the TA operon by binding to its own promoter region. The opportunistic pathogen Pseudomonas aeruginosa HigBA (PaHigBA) is closely associated with the pathogenicity by reducing the production of multiple virulence factors and biofilm formation. However, the molecular mechanism underlying HigBA TA operon transcription by PaHigA remains elusive. Here, we report the crystal structure of PaHigA binding to the promoter region of higBA operon containing two identical palindromic sequences at 3.14 Å resolution. The promoter DNA is bound by two cooperative dimers to essentially encircle the intact palindrome region. The helix-turn-helix (HTH) motifs from the two dimers insert into the major grooves of the DNA at the opposite sides. The DNA adopts a canonical B-DNA conformation and all the hydrogen bonds between protein and DNA are mediated by the DNA phosphate backbone. A higher resolution structure of PaHigA-DNA complex at 2.50 Å further revealed three water molecules bridged the DNA-binding interface and mediated the interactions between the bases of palindromic sequences and PaHigA (Thr40, Asp43, and Arg49). Structure-based mutagenesis confirmed these residues are essential for the specific DNA-binding ability of PaHigA. Our structure–function studies therefore elucidated the cooperative dimer–dimer transcription repression mechanism, and may help to understand the regulation of multiple virulence factors by PaHigA in P. aeruginosa.
Highlights
Toxin–antitoxin (TA) loci are small genetic modules that are widespread in bacterial plasmids and chromosomes and target various cellular functions to regulate cell growth and death (Gerdes et al, 2005; Yamaguchi and Inouye, 2011)
PaHigA Can Directly Bind to the Promoter Region of higBA Operon Containing Two Palindromes
The recent promoter analysis identified two identical palindromic sequences (5 -TTAAC GTTAA-3 ) in the promoter region of higBA operon, which are composed of one central site and two half distal sites (Guo et al, 2019) (Figure 1A)
Summary
Toxin–antitoxin (TA) loci are small genetic modules that are widespread in bacterial plasmids and chromosomes and target various cellular functions to regulate cell growth and death (Gerdes et al, 2005; Yamaguchi and Inouye, 2011). HigA can bind to the promoter region to autoregulate the transcription of this toxin-antitoxin operon. This system has an unusual gene arrangement, in which the toxin gene higB is upstream of the antitoxin gene higA. The toxin HigB belongs to RelE toxin superfamily, which include MqsR, BrnT, YafQ and YoeB subfamilies. These toxins are ribosomedependent and cleave mRNAs preferentially at stop codons in the ribosomal A site (Pedersen et al, 2003; Hurley and Woychik, 2009; Schureck et al, 2015, 2016). The antitoxin HigA can mask the endoribonuclease activity of toxin HigB and repress the transcription of the TA operon by binding to its own promoter region. HigA consist of five α helices with a canonical helixturn-helix (HTH) DNA-binding fold, and HigB displays a RelEtype ribonuclease fold consistent with the RelE/YoeB family
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