Genome Analysis of an Enterococcal Prophage, Entfac.My Publisher



Yazdanizad M¹ ; Fard RMN^{2, 3} ; Shahedin GJ⁴ ; Salehi M⁵ ; Dumanloo M⁶ ; Yaraghi AAS² Show Affiliations
Source: Avicenna Journal of Medical Biotechnology Published:2022

Abstract

Background: Bacteriophages are bacterial parasites. Unlike lytic bacteriophages, lys-ogenic bacteriophages do not multiply immediately after entering the host cells and may integrate their genomes into the bacterial genomes as prophages. Prophages can include various phenotypic and genotypic effects on the host bacteria. Enterococcus spp. are Gram-positive bacteria that cause infections in humans and animals. In recent decades, these bacteria have become resistant to various antimicrobials, including vancomycin. The aim of this study was to analyze genome of an enterococcal prophage. Methods: In this study, Enterococcus faecium EntfacYE was isolated from biological samples and its genome was analyzed using next-generation sequencing method. Results: Overall, 254 prophage genes were identified in the bacterial genome. The prophage included 39 housekeeping, 41 replication and regulation, 80 structural and packaging, and 48 lysis genes. Moreover, 46 genes with unknown functions were identified. All genes were annotated in DNA Data Bank of Japan. Conclusion: In general, most prophage genes were linked to packaging and structure (31.5%) gene group. However, genes with unknown functions included a high proportion (18.11%), which indicated necessity of further analyses. Genomic analysis of the prophages can be effective in better understanding of their roles in development of bacterial resistance to antibiotics. Moreover, identification and study of prophages can help researchers develop genetic engineering tools and novel infection therapies. © 2022, Avicenna Journal of Medical Biotechnology. All rights reserved.