A novel Enterococcus faecalis bacteriophage Ef212: biological and genomic features.

Abstract

This study aimed to isolate and characterize biological and genomic features of a phage infecting Enterococcus faecalis. The phage was isolated from environmental water and temperature and pH stability, one-step growth curve, and multiplicity of infection (MOI) were determined. Whole genome sequencing (WGS) and structural and functional annotations were performed. Its antibiofilm activity was also evaluated. The optimal MOI was 0.01, the latency period was 5 min, and the burst size was 202 plaque forming unit (PFU). High phage survival rates were observed at between pH 4-10 and temperatures between 4-50 °C. WGS and Transmission electron microscopy (TEM) showed that it was an Efquatrovirus representing siphovirus morphotype respectively. It was named as Enterococcus phage Ef212 and has a linear 40,690 bp double-stranded DNA with 45.3% G + C content (GenBank accession number: OR052631). BACPHLIP tool demonstrated that Enterococcus phage Ef212 is a lytic phage (88%). A total of 80 open reading frames (ORFs) were found and there were no antibiotic resistance genes, pathogenicity, virulence genes, or tRNAs in the phage genome. It was diverged from the most similar phages (identity, 88.35%; coverage, 89%) by phylogenetic analysis. Phage Ef212 shared a large part of its genome (60/80) with several other phages, yet some unique parts were found in their genomes. Host range analysis showed that phage Ef212 showed lytic activity against vancomycin-resistant and vancomycin-susceptible E. faecalis clinical isolates. This novel phage Ef212 showed the ability to inhibit and reduce the biofilm formation by around 42% and 38%, respectively. The biological and genomic features indicate that having an effective antibacterial activity, phage Ef212 seemed a promising therapeutic and biocontrol agent.