Litcius/Paper detail

Type II bacterial toxin–antitoxins: hypotheses, facts, and the newfound plethora of the PezAT system

Wai Ting Chan, M. Pilar Garcillán‐Barcia, Chew Chieng Yeo, Manuel Espinosa

2023FEMS Microbiology Reviews19 citationsDOIOpen Access PDF

Abstract

Toxin-antitoxin (TA) systems are entities found in the prokaryotic genomes, with eight reported types. Type II, the best characterized, is comprised of two genes organized as an operon. Whereas toxins impair growth, the cognate antitoxin neutralizes its activity. TAs appeared to be involved in plasmid maintenance, persistence, virulence, and defence against bacteriophages. Most Type II toxins target the bacterial translational machinery. They seem to be antecessors of Higher Eukaryotes and Prokaryotes Nucleotide-binding (HEPN) RNases, minimal nucleotidyltransferase domains, or CRISPR-Cas systems. A total of four TAs encoded by Streptococcus pneumoniae, RelBE, YefMYoeB, Phd-Doc, and HicAB, belong to HEPN-RNases. The fifth is represented by PezAT/Epsilon-Zeta. PezT/Zeta toxins phosphorylate the peptidoglycan precursors, thereby blocking cell wall synthesis. We explore the body of knowledge (facts) and hypotheses procured for Type II TAs and analyse the data accumulated on the PezAT family. Bioinformatics analyses showed that homologues of PezT/Zeta toxin are abundantly distributed among 14 bacterial phyla mostly in Proteobacteria (48%), Firmicutes (27%), and Actinobacteria (18%), showing the widespread distribution of this TA. The pezAT locus was found to be mainly chromosomally encoded whereas its homologue, the tripartite omega-epsilon-zeta locus, was found mostly on plasmids. We found several orphan pezT/zeta toxins, unaccompanied by a cognate antitoxin.

Topics & Concepts

AntitoxinBiologyPlasmidOperonVirulenceMicrobiologyGenePeptidoglycanToxinGeneticsBacterial genome sizeProteobacteriaGenomeEscherichia coli16S ribosomal RNAAntibiotic Resistance in BacteriaBacteriophages and microbial interactionsBacterial Genetics and Biotechnology