Abstract
The giant virus Mimiviridae family includes 3 groups of viruses: group A (includes Acanthamoeba polyphaga Mimivirus), group B (includes Moumouvirus) and group C (includes Megavirus chilensis). Virophages have been isolated with both group A Mimiviridae (the Mamavirus strain) and the related Cafeteria roenbergensis virus, and they have also been described by bioinformatic analysis of the Phycodnavirus. Here, we found that the first two strains of virophages isolated with group A Mimiviridae can multiply easily in groups B and C and play a role in gene transfer among these virus subgroups. To isolate new virophages and their Mimiviridae host in the environment, we used PCR to identify a sample with a virophage and a group C Mimiviridae that failed to grow on amoeba. Moreover, we showed that virophages reduce the pathogenic effect of Mimivirus (plaque formation), establishing its parasitic role on Mimivirus. We therefore developed a co-culture procedure using Acanthamoeba polyphaga and Mimivirus to recover the detected virophage and then sequenced the virophage's genome. We present this technique as a novel approach to isolating virophages. We demonstrated that the newly identified virophages replicate in the viral factories of all three groups of Mimiviridae, suggesting that the spectrum of virophages is not limited to their initial host.
Highlights
Free-living amoebas are ubiquitous protozoa that feed on microorganisms in their environment through phagocytosis
We have established a preliminary phylogenetic tree based on partial polB sequences; the tree shows a repartition into three groups: group A, group B and group C [6]
Our study shows that Sputnik 1 and Sputnik 2 are able to replicate in all of the Acanthamoeba polyphaga Mimivirus (APM) virus factories
Summary
Free-living amoebas are ubiquitous protozoa that feed on microorganisms in their environment through phagocytosis. Some microorganisms are able to resist digestion by this predator after phagocytosis [1]. Amoebas have been used as a tool for the isolation of digestion-resistant environmental bacteria, such as Legionella sp. APM is a large icosahedral virus with a 500 nm capsid [4] that is covered with surrounding fibrils and contains a 1.2 Mbp genome [5]. It belongs to the nucleocytoplasmic large DNA virus (NCLDV) family in the recently proposed order Megavirales [6], which includes Iridoviridae, Phycodnaviridae, Asfarviridae, Ascoviridae and Poxviridae [7]. We have established a preliminary phylogenetic tree based on partial polB sequences; the tree shows a repartition into three groups: group A (includes the Mimivirus and Mamavirus), group B (includes the Moumouvirus) and group C (includes the recently described Megavirus chilensis) [6]
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