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Recent Trends and Applications of Nanoencapsulated Bacteriocins against Microbes in Food Quality and Safety.

Bakhtawar ShafiqueMuhammad Modassar Ali Nawaz RanjhaMian Anjum MurtazaNoman WalayatAsad NawazWaseem KhalidShahid MahmoodMuhammad NadeemMuhammad Faisal ManzoorKashif AmeerRana Muhammad BilalSalam Adnan Ibrahim
Published in: Microorganisms (2022)
Bacteriocins are ribosomal-synthesized peptides or proteins produced by bacterial strains and can inhibit pathogenic bacteria. Numerous factors influence the potential activity of bacteriocins in food matrices. For example, food additives usage, chemical composition, physical conditions of food, and sensitivity of proteolytic enzymes can constrain the application of bacteriocins as beneficial food preservatives. However, novel bacteriocin nanoencapsulation has appeared as an encouraging solution. In this review, we highlight the bacteriocins produced by Gram-negative bacteria and Gram-positive bacteria including lactic acid bacteria that have shown positive results as potential food preservatives. In addition, this review encompasses the major focus on bacteriocins encapsulation with nanotechnology to enhance the antimicrobial action of bacteriocins. Several strategies can be employed to encapsulate bacteriocins; however, the nanotechnological approach is one of the most effective strategies for avoiding limitations. Nanoparticles such as liposomes, chitosan, protein, and polysaccharides have been discussed to show their importance in the nanoencapsulation method. The nanoparticles are combined with bacteriocins to develop the nano-encapsulated bacteriocins from Gram-negative and Gram-positive bacteria including LAB. In food systems, nanoencapsulation enhances the stability and antimicrobial functionality of active peptides. This nanotechnological application provides a formulation of a broad range of antimicrobial peptides at the industry-scale level. Nano-formulated bacteriocins have been discussed along with examples to show a broader antimicrobial spectrum, increase bacteriocins' applicability, extend antimicrobial spectrum and enhance stability.
Keyphrases
  • gram negative
  • human health
  • staphylococcus aureus
  • drug delivery
  • multidrug resistant
  • risk assessment
  • escherichia coli
  • physical activity
  • lactic acid
  • climate change