Persistent mirusvirus infection in the marine protist Aurantiochytrium.
Dudley Chung, Nikolaj Brask, Sari Matar, Lucie Gallot-Lavallée, Eric S Pringle, Brett A Duguay, Cédric Blais, Jessica Latimer, Ronie Haro, Claudio H Slamovits, Ben Leyland, Joshua S Rest, Jackie L Collier, Craig McCormick, John M Archibald
Abstract
Open AccessMirusviruses are abundant and broadly distributed double-stranded (ds) DNA viruses recently discovered in marine metagenomic data. Their host range and ecological impact are unclear. The protist Aurantiochytrium limacinum possesses two mirusvirus-like genomic elements, one a circular episome (AurliV-1) and the other (AurliV-2) a chromosomal integrant. Here we show that genes in both genomes are expressed and viral particles containing mainly AurliV-1 DNA are produced under starvation conditions and when cells are cultured in standard growth medium. We detected viral particles of ~140 nm in the nucleus, in cytoplasmic vesicles, between the plasma membrane and cell wall, and in the extracellular environment. Of 67 AurliV-1-encoded proteins detected using proteomics, 45 are enriched under starvation conditions, including the structurally important major capsid and triplex proteins. Our results establish Aurantiochytrium as a model system for elucidating mirusvirus-host interactions and demonstrate persistent viral infection in a microbial eukaryote.