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Review
. 2022 Oct;133(4):2137-2147.
doi: 10.1111/jam.15555. Epub 2022 Apr 11.

The application and research progress of bacteriophages in food safety

Zhihui Wang  1 Xihong Zhao  1
Affiliations
Review

The application and research progress of bacteriophages in food safety

Zhihui Wang et al. J Appl Microbiol. 2022 Oct.

Abstract

The abuse of antibiotics and the emergence of drug-resistant bacteria aggravate the problem of food safety. Finding safe and efficient antibiotic substitutes is an inevitable demand for ensuring the safety of animal-derived food. Bacteriophages are a kind of virus that can infect bacteria, fungi or actinomycetes. They have advantages of simple structure, strong specificity and nontoxic side effects for the human body. Bacteriophages can not only differentiate live cells from dead ones but also detect bacteria in a viable but nonculturable state. These characteristics make bacteriophages more and more widely used in the food industry. This paper describes the concept and characteristics of bacteriophages, and introduces the application of bacteriophages in preharvest production, food processing, storage and sales. Several methods of using bacteriophages to detect foodborne pathogens are listed. Finally, the advantages and limitations of bacteriophages in the food industry are summarized, and the application prospect of bacteriophages in the food industry is discussed.

Keywords: bacteriolysis; bacteriophages; detection; food safety; foodborne pathogens.

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References

REFERENCES

    1. Abhisingha, M., Dumnil, J. & Pitaksutheepong, C. (2020) Efficiency of phage cocktail to reduce Salmonella typhimurium on chicken meat during low temperature storage. Lwt-Food Science and Technology, 129, 109580.
    1. Ammar, A.M., Attia, A.M., Abd El-Aziz, N.K., Abd El Hamid, M.I. & El-Demerdash, A.S. (2016) Class 1 integron and associated gene cassettes mediating multiple-drug resistance in some food borne pathogens. International Food Research Journal, 23, 332-339.
    1. Awais, R., Fukudomi, H., Miyanaga, K., Unno, H. & Tanji, Y. (2006) A recombinant bacteriophage-based assay for the discriminative detection of culturable and viable but nonculturable Escherichia coli O157:H7. Biotechnology Progress, 22, 853-859.
    1. Baek, D.-Y., Jong-Hyun, P., Cho, S.-C. & Duck, L.Y. (2020) Rapid detection of Shiga-toxin producing E. coli by bacteriophage amplification assay. Korean Journal of Food Science and Technology, 52, 103-108.
    1. Baek, S.H., Kim, M.W., Park, C.Y., Choi, C.-S., Kailasa, S.K., Park, J.P. et al. (2019) Development of a rapid and sensitive electrochemical biosensor for detection of human norovirus via novel specific binding peptides. Biosensors & Bioelectronics, 123, 223-229.

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