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Diversity and evolution of the emerging Pandoraviridae family.

Matthieu LegendreElisabeth FabreOlivier PoirotSandra JeudyAudrey LartigueJean-Marie AlempicLaure BeucherNadège PhilippeLionel BertauxEugène Christo-ForouxKarine LabadieYohann CoutChantal AbergelJean-Michel Claverie
Published in: Nature communications (2018)
With DNA genomes reaching 2.5 Mb packed in particles of bacterium-like shape and dimension, the first two Acanthamoeba-infecting pandoraviruses remained up to now the most complex viruses since their discovery in 2013. Our isolation of three new strains from distant locations and environments is now used to perform the first comparative genomics analysis of the emerging worldwide-distributed Pandoraviridae family. Thorough annotation of the genomes combining transcriptomic, proteomic, and bioinformatic analyses reveals many non-coding transcripts and significantly reduces the former set of predicted protein-coding genes. Here we show that the pandoraviruses exhibit an open pan-genome, the enormous size of which is not adequately explained by gene duplications or horizontal transfers. As most of the strain-specific genes have no extant homolog and exhibit statistical features comparable to intergenic regions, we suggest that de novo gene creation could contribute to the evolution of the giant pandoravirus genomes.
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