DNA viruses: the really big ones (giruses)

doi:10.1146/annurev.micro.112408.134338

Review

. 2010:64:83-99.

doi: 10.1146/annurev.micro.112408.134338.

DNA viruses: the really big ones (giruses)

James L Van Etten¹, Leslie C Lane, David D Dunigan

Affiliations

PMID: 20690825
PMCID: PMC2936810
DOI: 10.1146/annurev.micro.112408.134338

Review

DNA viruses: the really big ones (giruses)

James L Van Etten et al. Annu Rev Microbiol. 2010.

. 2010:64:83-99.

doi: 10.1146/annurev.micro.112408.134338.

Authors

James L Van Etten¹, Leslie C Lane, David D Dunigan

Affiliation

¹ Department of Plant Pathology, University of Nebraska, Lincoln, Nebraska 68583, USA. jvanetten@unlnotes.unl.edu

PMID: 20690825
PMCID: PMC2936810
DOI: 10.1146/annurev.micro.112408.134338

Abstract

Viruses with genomes greater than 300 kb and up to 1200 kb are being discovered with increasing frequency. These large viruses (often called giruses) can encode up to 900 proteins and also many tRNAs. Consequently, these viruses have more protein-encoding genes than many bacteria, and the concept of small particle/small genome that once defined viruses is no longer valid. Giruses infect bacteria and animals although most of the recently discovered ones infect protists. Thus, genome gigantism is not restricted to a specific host or phylogenetic clade. To date, most of the giruses are associated with aqueous environments. Many of these large viruses (phycodnaviruses and Mimiviruses) probably have a common evolutionary ancestor with the poxviruses, iridoviruses, asfarviruses, ascoviruses, and a recently discovered Marseillevirus. One issue that is perhaps not appreciated by the microbiology community is that large viruses, even ones classified in the same family, can differ significantly in morphology, lifestyle, and genome structure. This review focuses on some of these differences than on extensive details about individual viruses.

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Figures

**Figure 1**
(a) Transmission electron micrograph of Mimivirus. (b) Atomic force microscopy of defibered Mimivirus. The unique star-faced vertex is clearly visible. (c) Fivefold averaged cryo-electron micrographs of virus PBCV-1 reveal a long, thin, cylindrical spike structure at one vertex and protrusions (fibers) extending from one unique capsomer per trisymmetron. (d) Central cross section of panel c. Note the gap between the unique vertex and the membrane enclosing the DNA. Also the unique vertex contains a portal-like protein. (e) PBCV-1 attached to the cell wall as viewed by the quick-freeze, deep-etch procedure. Note fibers attach the virus to the wall. ( f ) Transmission electron micrograph of EhV. (g) Schematic of freshly isolated EhV (*left*) and stored EhV (*right*). Note the external membrane swells with age. (h, i) Morphology of the *White spot shrimp virus* (WSSV) virion. (h) Negative contrast electron micrograph of intact WSSV virion with its tail-like extension. (i ) Schematic based on panel h showing the layered structures of a WSSV virion, i.e., envelope, tegument, and nucleocapsid. ( j ) Electron micrograph of bacteriophage G. The insert shows coliphage lambda to the same scale. Panel a from Reference , b from Reference , c and d from Reference , e from Reference , f and g from Reference , h and i from Reference , and j from Reference —all published with permission.

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References

1. Agarkova IV, Dunigan DD, Van Etten JL. Virion-associated restriction endonucleases of chloroviruses. J. Virol. 2006;80:8114–8123. - PMC - PubMed
1. Baudoux AC, Brussaard CP. Characterization of different viruses infecting the marine harmful algal bloom species Phaeocystis globosa. Virology. 2005;341:80–90. - PubMed
1. Bézier A, Annaheim M, Herbinière J, Wetterwald C, Gyapay G, et al. Polydnaviruses of braconid wasps derive from an ancestral nudivirus. Science. 2009;323:926–930. - PubMed
1. Bézier A, Herbinière J, Lanzrein B, Drezen JM. Polydnavirus hidden face: The genes producing virus particles of parasitic wasps. J. Invertebr. Pathol. 2009;101:194–203. - PubMed
1. Bell PJL. Sex and the eukaryotic cell cycles is consistent with a viral ancestry for the eukaryotic nucleus. J. Theoret. Biol. 2006;243:54–63. - PubMed

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[1] Agarkova IV, Dunigan DD, Van Etten JL. Virion-associated restriction endonucleases of chloroviruses. J. Virol. 2006;80:8114–8123. - PMC - PubMed

[2] Agarkova IV, Dunigan DD, Van Etten JL. Virion-associated restriction endonucleases of chloroviruses. J. Virol. 2006;80:8114–8123. - PMC - PubMed

[3] Baudoux AC, Brussaard CP. Characterization of different viruses infecting the marine harmful algal bloom species Phaeocystis globosa. Virology. 2005;341:80–90. - PubMed

[4] Baudoux AC, Brussaard CP. Characterization of different viruses infecting the marine harmful algal bloom species Phaeocystis globosa. Virology. 2005;341:80–90. - PubMed

[5] Bézier A, Annaheim M, Herbinière J, Wetterwald C, Gyapay G, et al. Polydnaviruses of braconid wasps derive from an ancestral nudivirus. Science. 2009;323:926–930. - PubMed

[6] Bézier A, Annaheim M, Herbinière J, Wetterwald C, Gyapay G, et al. Polydnaviruses of braconid wasps derive from an ancestral nudivirus. Science. 2009;323:926–930. - PubMed

[7] Bézier A, Herbinière J, Lanzrein B, Drezen JM. Polydnavirus hidden face: The genes producing virus particles of parasitic wasps. J. Invertebr. Pathol. 2009;101:194–203. - PubMed

[8] Bézier A, Herbinière J, Lanzrein B, Drezen JM. Polydnavirus hidden face: The genes producing virus particles of parasitic wasps. J. Invertebr. Pathol. 2009;101:194–203. - PubMed

[9] Bell PJL. Sex and the eukaryotic cell cycles is consistent with a viral ancestry for the eukaryotic nucleus. J. Theoret. Biol. 2006;243:54–63. - PubMed

[10] Bell PJL. Sex and the eukaryotic cell cycles is consistent with a viral ancestry for the eukaryotic nucleus. J. Theoret. Biol. 2006;243:54–63. - PubMed

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DNA viruses: the really big ones (giruses)

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DNA viruses: the really big ones (giruses)

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