How Much Do You Know about Bacteriocin?

How Much Do You Know about Bacteriocin? In recent years, the increase in the number of multi-drug resistant pathogens and food safety have become serious global problems, and it is increasingly important to find or develop a new generation of antibacterial drugs or preservatives. Scientists have discovered that bacteria-produced bacteriocins can control clinically relevant susceptible and resistant bacteria, and purified bacteriocins can be added to foods as natural preservatives. Bacteriocins can be added to animal feeds as anti-pathogen additives to protect livestock from pathogen damage. In medicine, bacteriocin has the potential to replace antibiotics as antibacterial drugs and is a new type of anticancer drug. What’s Bacteriocin? Bacteriocins are small, thermostable, ribosomally synthesized antimicrobial peptides produced by bacteria that are active against other bacteria and to which the producer is immune. They exhibit considerable diversity in size, structure, mechanism of action, inhibitory profile, immune mechanism, and target cell receptors. They exhibit antimicrobial activity against the same bacterial strain from which they are produced or against strains of closely related species. The synthesis of bacteriocin takes place under the control of genes located in plasmid or chromosomal DNA that simultaneously contain the genetic determinants of the resistance of the producer to the produced bacteriocin. Genes encoding active proteins, genes encoding protein resistance, genes responsible for export of bacteriocin from cells, and occasionally genes encoding enzymes involved in posttranslational modification of bacteriocin were expressed simultaneously. Bacteriocins are composed of Gram-positive bacteria (Lactobacillus, Lactococcus, Streptococcus, Enterococcus, Leuconostoc, Pediococcus, and Propionibacterium) and Gramnegative bacteria (Escherichia coli, Shigella, Serratia bacteria, Klebsiella, and Pseudomonas). "Bacteriocin" refers to a toxic protein or peptide produced by any type of bacteria that is active against the related bacteria but does not harm the producing cells. This is the first described bacteriocin produced by E. coli. In this case, the suffix cin is added to the production species, e.g., pyocins are from Pseudomonas pyocyanea. Genus names are also used to name bacteria, such as klebicins (from Klebsiella), lactococcins (from Lactococcus). Although bacteriocins are toxic to bacteria, they should not be confused with "toxins" (exotoxins). Enterobactin, the first bacteriocin to be identified, was named by discoverer André Gratia in 1925 when he noticed that a strain of E. coli produced a toxic diffusible substance that killed neighboring E. coli. Since then, hundreds of peptides and protein bacteriocins have been described that are part of a diverse library of natural antimicrobial compounds made by Gram-negative and Gram-