Abstract
“Giant” phages have genomes of >200 kbp, confined in correspondingly large capsids whose assembly and maturation are still poorly understood. Nevertheless, the first assembly product is likely to be, as in other tailed phages, a procapsid that subsequently matures and packages the DNA. The associated transformations include the cleavage of many proteins by the phage-encoded protease, as well as the thinning and angularization of the capsid. We exploited an amber mutation in the viral protease gene of the Salmonella giant phage SPN3US, which leads to the accumulation of a population of capsids with distinctive properties. Cryo-electron micrographs reveal patterns of internal density different from those of the DNA-filled heads of virions, leading us to call them “mottled capsids”. Reconstructions show an outer shell with T = 27 symmetry, an embellishment of the HK97 prototype composed of the major capsid protein, gp75, which is similar to some other giant viruses. The mottled capsid has a T = 1 inner icosahedral shell that is a complex network of loosely connected densities composed mainly of the ejection proteins gp53 and gp54. Segmentation of this inner shell indicated that a number of densities (~12 per asymmetric unit) adopt a “twisted hook” conformation. Large patches of a proteinaceous tetragonal lattice with a 67 Å repeat were also present in the cell lysate. The unexpected nature of these novel inner shell and lattice structures poses questions as to their functions in virion assembly.
Highlights
Laboratory for Structural Biology Research, NIAMS, NIH, Bethesda, MD 20892, USA; NYU Langone Health, CryoEM Core Facility, Division of Advanced Research Technologies, New York, NY 10016, USA
CryoEM of the SPN3US virion revealed a head of ~1460 Å, with a striated or punctate pattern of the packaged DNA, which has a distinctive 25 Å
Previous proteomic analyses of a tailless mutant determined that, in addition to its DNA, the SPN3US head contains a substantial amount of proteins with still obscure functions [2,3]
Summary
Laboratory for Structural Biology Research, NIAMS, NIH, Bethesda, MD 20892, USA; NYU Langone Health, CryoEM Core Facility, Division of Advanced Research Technologies, New York, NY 10016, USA. The mottled capsid has a T = 1 inner icosahedral shell that is a complex network of loosely connected densities composed mainly of the ejection proteins gp and gp. Collective phage lore suggests that capsid assembly should commence with the formation of a procapsid guided by interactions between the growing surface shell and a morphogenic scaffold or core [4,5]. This is followed by activation of the protease and cleavage of several proteins, leading to the expulsion of scaffolding protein(s) and the major structural transformation (usually expansion) of the surface shell.
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