Cryo-EM Structures of Two Bacteriophage Portal Proteins Provide Insights for Antimicrobial Phage Engineering.
Javed, A., Villanueva, H., Shataer, S., Vasciaveo, S., Savva, R., Orlova, E.V.(2021) Viruses 13
- PubMed: 34960800 
- DOI: https://doi.org/10.3390/v13122532
- Primary Citation of Related Structures:  
7PV2, 7PV4 - PubMed Abstract: 
Widespread antibiotic resistance has returned attention to bacteriophages as a means of managing bacterial pathogenesis. Synthetic biology approaches to engineer phages have demonstrated genomic editing to broaden natural host ranges, or to optimise microbicidal action. Gram positive pathogens cause serious pastoral animal and human infections that are especially lethal in newborns. Such pathogens are targeted by the obligate lytic phages of the Salasmaviridae and Guelinviridae families. These phages have relatively small ~20 kb linear protein-capped genomes and their compact organisation, relatively few structural elements, and broad host range, are appealing from a phage-engineering standpoint. In this study, we focus on portal proteins, which are core elements for the assembly of such tailed phages. The structures of dodecameric portal complexes from Salasmaviridae phage GA1, which targets Bacillus pumilus , and Guelinviridae phage phiCPV4 that infects Clostridium perfringens , were determined at resolutions of 3.3 Å and 2.9 Å, respectively. Both are found to closely resemble the related phi29 portal protein fold. However, the portal protein of phiCPV4 exhibits interesting differences in the clip domain. These structures provide new insights on structural diversity in Caudovirales portal proteins and will be essential for considerations in phage structural engineering.
Organizational Affiliation: 
Department of Biological Sciences, Institute of Structural and Molecular Biology, Birkbeck College, Malet Street, London WC1E 7HX, UK.