Abstract

Bacteriophage T7 gene 17.5 coding for the only known holin is one of the components of its lysis system, but the holin activity in T7 is more complex than a single gene, and evidence points to the existence of additional T7 genes with holin activity. In this study, a T7 phage with a gene 17.5 deletion (T7-△holin) was rescued and its biological characteristics and effect on cell lysis were determined. Furthermore, the genomic evolution of mutant phage T7-△holin during serial passage was assessed by whole-genome sequencing analysis. It was observed that deletion of gene 17.5 from phage T7 delays lysis time and enlarges the phage burst size; however, this biological characteristic recovered to normal lysis levels during serial passage. Scanning electron microscopy showed that the two opposite ends of E. coli BL21 cells swell post-T7-△holin infection rather than drilling holes on cell membrane when compared with T7 wild-type infection. No visible progeny phage particle accumulation was observed inside the E. coli BL21 cells by transmission electron microscopy. Following serial passage of T7-△holin from the 1st to 20th generations, the mRNA levels of gene 3.5 and gene 19.5 were upregulated and several mutation sites were discovered, especially two missense mutations in gene 19.5, which indicate a potential contribution to the evolution of the T7-△holin. Although the burst size of T7-△holin increased, high titer cultivation of T7-△holin was not achieved by optimizing the culture process. Accordingly, these results suggest that gene 19.5 is a potential lysis-related component that needs to be studied further and that the T7-△holin strain with its gene 17.5 deletion is not adequate to establish the high-titer phage cultivation process.

Highlights

  • Virulent T7 phage is one of seven phages first identified in Escherichia coli in 1945 (Demerec and Fano, 1945)

  • A T7- holin phage was created by deleting gene 17.5 to evaluate the roles of holin in the T7 phage lytic cycle

  • Deletion of the holin gene was confirmed by plaque PCR detection and DNA sequencing analysis

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Summary

Introduction

Virulent T7 phage is one of seven phages first identified in Escherichia coli in 1945 (Demerec and Fano, 1945). The genome of T7 phages is ∼40 kb and is packed into the polyhedral head formed by the capsid proteins. The capsid is composed predominantly of the products of gene 10, which encodes two kinds of protein, i.e., gp10A (344 aa) and gp10B (397 aa). Evolution of Gene 17.5 Deletion Phage culture conditions (Sipley et al, 1991). The proportion of gp10A and gp10B may vary according to conditions and does not affect the integrity of phage particles (Condron et al, 1991; Deng et al, 2018). Based on the common principle of phage display, exogenous peptides are fused with a phage capsid protein, which allows them to be displayed on the surface of the phage particle. T7 phages have been employed in a phage surface display system (Rosenberg et al, 1996) and commercialized by Novagen

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