An oxygen-sensitive toxin-antitoxin system

An oxygen-sensitive toxin-antitoxin system

The Hha and TomB proteins from Escherichia coli form an oxygen-dependent toxin-antitoxin (TA) system. Here we show that YmoB, the Yersinia orthologue of TomB, and its single cysteine variant [C117S]YmoB can replace TomB as antitoxins in E. coli. In contrast to other TA systems, [C117S]YmoB transient...

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Hauptverfasser: Marimon Garrido, Oriol, Teixeira, Joao M. C, Cordeiro, Tiago N, Soo, Valerie W. C, Wood, Thammajun L, Mayzel, Maxim, Amata, Irene, Gracía, Jesús, Morera, Ainara, Gay i Marín, Marina, Vilaseca Casas, Marta, Orekhov, Vladislav Yu, Wood, Thomas K, Pons Vallès, Miquel
Format: Artikel
Sprache:eng
Schlagworte:
Escherichia coli
Escheríchia coli
Espectrometria de masses
Espectroscòpia de ressonància magnètica nuclear
Mass spectrometry
Nuclear magnetic resonance spectroscopy
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Zusammenfassung:The Hha and TomB proteins from Escherichia coli form an oxygen-dependent toxin-antitoxin (TA) system. Here we show that YmoB, the Yersinia orthologue of TomB, and its single cysteine variant [C117S]YmoB can replace TomB as antitoxins in E. coli. In contrast to other TA systems, [C117S]YmoB transiently interacts with Hha (rather than forming a stable complex) and enhances the spontaneous oxidation of the Hha conserved cysteine residue to a -SOxH- containing species (sulfenic, sulfinic or sulfonic acid), which destabilizes the toxin. The nuclear magnetic resonance structure of [C117S]YmoB and the homology model of TomB show that the two proteins form a four-helix bundle with a conserved buried cysteine connected to the exterior by a channel with a diameter comparable to that of an oxygen molecule. The Hha interaction site is located on the opposite side of the helix bundle.
ISSN:2041-1723
2041-1723
DOI:10.1038/ncomms13634