Chrysochromulina ericina virus explained

Chrysochromulina ericina virus 01B, or simply Chrysochromulina ericina virus (CeV) is a giant virus in the family Mimiviridae infecting Haptolina ericina (previously assigned to the genus Chrysochromulina[1]), a marine microalgae member of the Haptophyta. CeV is a dsDNA virus.[2]

History and taxonomy

CeV was discovered in the Norwegian coastal waters in 1998. It was then isolated and characterized. It was then believed to belong to the phycodnaviridae along with all other known algae infecting viruses.[3] The discovery of Acanthamoeba polyphaga mimivirus helped to discover that there existed marine mimiviruses that could infect microalgae.[4] A CeV strain was later found in the Gulf of Main in 2013[5] and the phylogenetic analysis of some specific marker confirmed its proximity with mimiviruses. In 2015,CeV was fully sequenced to classify it as a mimiviridae[6]

It was more recently proposed a group of mimiviridae infecting microalgae that would include CeV together with Phaeocystis globosa virus (PgV) infecting a haptophyceae and Aureococcus anophagefferens virus (AaV) infecting a stramenopile.[7]

Structure

CeV has a diameter of 160 nm. It has an icosahedral structure and no external membrane.

Genome

CeV’s genome has 473,558 bp and a low G-C content of 25%. It is predicted to have 512 ORFs. CeV possess a large number of core genes like the major capsid protein and the DNA polymerase B close to the respective genes of PgV. CeV may have the ability to repair its DNA as it is suggested by the presence of the sequences of MutS7 and an ERCC4-type DNA repair nuclease (which are involved in DNA repair). This last enzyme is typically used for repairing DNA damage caused by UV light which is consistent with the habitat of a mimiviridae infecting a photosynthetic host. It has also 305 unique genes that found no match in the public databases

Viral cycle

Little is known about CeV’s cycle. It replicates in the host’s cytoplasm and its lytic cycle lasts 14 to 19 hours. CeV possess in its genome a sequence coding for a DNA polymerase and two RNA-polymerase II DNA-dependent. It also has twelve tRNA indicating an important machinery allowing for a relative independent replication and virion formation that is characteristic for mimiviridae.

Notes and References

  1. Edvardsen. Bente. Eikrem. Wenche. Throndsen. Jahn. Sáez. Alberto G.. Probert. Ian. Medlin. Linda K.. Linda Medlin. August 2011. Ribosomal DNA phylogenies and a morphological revision provide the basis for a revised taxonomy of the Prymnesiales (Haptophyta). European Journal of Phycology. 46. 3. 202–228. 10.1080/09670262.2011.594095. free. 2011EJPhy..46..202E .
  2. Sandaa. Ruth-Anne. Heldal. Mikal. Castberg. Tonje. Thyrhaug. Runar. Bratbak. Gunnar. November 2001. Isolation and Characterization of Two Viruses with Large Genome Size Infecting Chrysochromulina ericina (Prymnesiophyceae) and Pyramimonas orientalis (Prasinophyceae) . Virology . 290 . 2 . 272–280 . 10.1006/viro.2001.1161. 11883191. free.
  3. Larsen. J. B.. Larsen. A.. Bratbak. G.. Sandaa. R.-A.. 21 March 2008. Phylogenetic Analysis of Members of the Phycodnaviridae Virus Family, Using Amplified Fragments of the Major Capsid Protein Gene. Applied and Environmental Microbiology. 74. 10. 3048–3057. 10.1128/AEM.02548-07. 18359826. 2394928. 2008ApEnM..74.3048L.
  4. Monier. Adam. Larsen. Jens B.. Sandaa. Ruth-Anne. Bratbak. Gunnar. Claverie. Jean-Michel. Ogata. Hiroyuki. 2008. Marine mimivirus relatives are probably large algal viruses. Virology Journal. 5. 1. 12. 10.1186/1743-422X-5-12. 18215256. 2245910 . free .
  5. Wilson. William H.. Gilg. Ilana C.. Duarte. Amy. Ogata. Hiroyuki. October 2014. Development of DNA mismatch repair gene, MutS, as a diagnostic marker for detection and phylogenetic analysis of algal Megaviruses. Virology. 466-467. 123–128. 10.1016/j.virol.2014.07.001. 25063474. free.
  6. Gallot-Lavallée. Lucie. Pagarete. António. Legendre. Matthieu. Santini. Sebastien. Sandaa. Ruth-Anne. Himmelbauer. Heinz. Ogata. Hiroyuki. Bratbak. Gunnar. Claverie. Jean-Michel. 3 December 2015. The 474-Kilobase-Pair Complete Genome Sequence of CeV-01B, a Virus Infecting Haptolina (Chrysochromulina) ericina (Prymnesiophyceae) . Genome Announcements . 3 . 6 . 10.1128/genomeA.01413-15. 26634761. 4669402.
  7. Gallot-Lavallée. Lucie. Blanc. Guillaume. Claverie. Jean-Michel. McFadden. Grant. 15 July 2017. Comparative Genomics of Chrysochromulina ericina virus and Other Microalga-Infecting Large DNA Viruses Highlights Their Intricate Evolutionary Relationship with the Established Mimiviridae Family. Journal of Virology. 91. 14. 10.1128/JVI.00230-17. 28446675. 5487555.