Construction of a Fusellovirus with a Minimal Set of Genes.
Junxia ZhangLi HuangPublished in: ACS synthetic biology (2021)
A large number of fuselloviruses have been found in acidic hot springs around the globe. They share a set of highly conserved genes (core genes) and possess a varying number of less-conserved genes (non-core genes). However, the functions of most of these genes are unknown. Recent studies show that as many as half of these genes tolerate mutation. In this study, we conducted a genetic analysis on Saccharolobus spindle-shaped virus 22 (SSV22), an alphafusellovirus with fewer open reading frames (ORFs) than most of the isolated fuselloviruses. Both deletion and frame-shift mutations were introduced into nearly all of the 26 ORFs of the viral genome. A total of 17 ORFs were indispensable, and two additional ORFs were required for the optimal infectivity of the virus. Deletion of either VP2 or VP3, the two structural proteins, did not affect the morphology or infectivity of the virus. An infectious SSV22 derivative carrying a minimal genome of 20 ORFs was obtained. The SSV22 capsid was capable of accommodating a genome as large as ∼18 kb, or ∼7 kb larger than that of the wild-type virus. The viral capsid varied in both the length and width, but not in shape, with the size of the genome. Our results will facilitate the analysis of crucial protein-protein interactions between SSV22 and the host during viral infection and help explore the use of SSV22 as a vector for DNA delivery in potential applications.