Ribosome-dependent Vibrio cholerae mRNAse HigB2 is regulated by a β-strand sliding mechanism

Ribosome-dependent Vibrio cholerae mRNAse HigB2 is regulated by a β-strand sliding mechanism

Toxin-antitoxin (TA) modules are small operons involved in bacterial stress response and persistence. higBA operons form a family of TA modules with an inverted gene organization and a toxin belonging to the RelE/ParE superfamily. Here, we present the crystal structures of chromosomally encoded Vibr...

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Bibliographic Details
Published in:Nucleic acids research Vol. 45; no. 8; pp. 4972 - 4983
Main Authors: Hadži, San, Garcia-Pino, Abel, Haesaerts, Sarah, Jurenas, Dukas, Gerdes, Kenn, Lah, Jurij, Loris, Remy
Format: Journal Article
Language:English
Published: England Oxford University Press 05-05-2017
Subjects:
Antitoxins - chemistry
Antitoxins - genetics
Bacterial Proteins - genetics
Bacterial Toxins - chemistry
Bacterial Toxins - genetics
Catalytic Domain
Crystallography, X-Ray
DNA Topoisomerase IV - genetics
Escherichia coli
Escherichia coli Proteins - genetics
Multiprotein Complexes - chemistry
Multiprotein Complexes - genetics
Protein Binding
Protein Conformation, beta-Strand
Protein Multimerization
Ribonucleases - chemistry
Ribonucleases - genetics
Ribosomes - chemistry
Ribosomes - genetics
RNA, Messenger - chemistry
RNA, Messenger - genetics
Structural Biology
Vibrio cholerae - chemistry
Vibrio cholerae - enzymology
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Summary:Toxin-antitoxin (TA) modules are small operons involved in bacterial stress response and persistence. higBA operons form a family of TA modules with an inverted gene organization and a toxin belonging to the RelE/ParE superfamily. Here, we present the crystal structures of chromosomally encoded Vibrio cholerae antitoxin (VcHigA2), toxin (VcHigB2) and their complex, which show significant differences in structure and mechanisms of function compared to the higBA module from plasmid Rts1, the defining member of the family. The VcHigB2 is more closely related to Escherichia coli RelE both in terms of overall structure and the organization of its active site. VcHigB2 is neutralized by VcHigA2, a modular protein with an N-terminal intrinsically disordered toxin-neutralizing segment followed by a C-terminal helix-turn-helix dimerization and DNA binding domain. VcHigA2 binds VcHigB2 with picomolar affinity, which is mainly a consequence of entropically favorable de-solvation of a large hydrophobic binding interface and enthalpically favorable folding of the N-terminal domain into an α-helix followed by a β-strand. This interaction displaces helix α3 of VcHigB2 and at the same time induces a one-residue shift in the register of β-strand β3, thereby flipping the catalytically important Arg64 out of the active site.
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ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gkx138