Abstract
The largest known DNA viruses infect Acanthamoeba
and belong to two markedly different families. The Megaviridae exhibit
pseudo-icosahedral virions up to 0.7 μm in diameter
and adenine–thymine (AT)-rich genomes of
up to 1.25 Mb encoding a thousand proteins. Like their Mimivirus
prototype discovered
10 y ago, they entirely replicate within
cytoplasmic virion factories. In contrast, the recently discovered
Pandoraviruses
exhibit larger amphora-shaped virions 1 μm
in length and guanine–cytosine-rich genomes up to 2.8 Mb long encoding
up to 2,500
proteins. Their replication involves the
host nucleus. Whereas the Megaviridae share some general features with
the previously
described icosahedral large DNA viruses,
the Pandoraviruses appear unrelated to them. Here we report the
discovery of a third
type of giant virus combining an even
larger pandoravirus-like particle 1.5 μm in length with a surprisingly
smaller 600 kb
AT-rich genome, a gene content more
similar to Iridoviruses and Marseillevirus, and a fully cytoplasmic
replication reminiscent
of the Megaviridae. This suggests that
pandoravirus-like particles may be associated with a variety of virus
families more
diverse than previously envisioned. This
giant virus, named Pithovirus sibericum, was isolated from a
>30,000-y-old radiocarbon-dated sample when we initiated a survey of
the virome of Siberian permafrost.
The revival of such an ancestral
amoeba-infecting virus used as a safe indicator of the possible presence
of pathogenic DNA
viruses, suggests that the thawing of
permafrost either from global warming or industrial exploitation of
circumpolar regions
might not be exempt from future threats to
human or animal health.
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