ABSTRACT
Toxin-antitoxin system (TA) is a genetic element widely found in chromosomes and plasmids of bacteria, archaea and prophages. TA usually consists a toxin that inhibits the growth of bacteria and an antitoxin that neutralizes its toxicity. Since the discovery of the first CcdB / CcdA TA in the 1980s, TA has been proved to exist in almost all sequenced microorganisms and plays an important role in maintaining plasmid stability, anti-phage and promoting biofilm formation. At present, TA is divided into type I-VIII, among which type IITA is the most widely studied. HipBA is a type II TA. The toxin HipA in Escherichia coli HipBA is a serine / threonine kinase, which inhibits protein translation by phosphorylating bacterial Glutamyl tRNA synthetase (GltX), and its toxicity can be specifically neutralized by HipB. Recently, it has been found that Escherichia coli HipA homologous proteins exist widely in microorganisms, and they form a potential novel TA with genes of the same promoter, in which HipBST has been confirmed by experiments. The toxin HipT and the antitoxin HipS in this TA are similar to the C-terminal and N-terminal of E. coli HipA respectively, and the neutralization mechanism and the substrate of the toxin are different from that of E. coli toxin HipA. This study summarizes the recent discovery of special TA, especially the neutralization mechanism of HipBST which widely exists in prokaryotes.