Nucleocytoviricota
Nucleocytoviricota | |
---|---|
Virus classification | |
(unranked): | Virus |
Realm: | Varidnaviria |
Kingdom: | Bamfordvirae |
Phylum: | Nucleocytoviricota |
Classes | |
See text | |
Synonyms | |
Megavirales[1] |
Nucleocytoviricota is a phylum of viruses.[2] Members of the phylum are also known as the nucleocytoplasmic large DNA viruses (NCLDV), which serves as the basis of the name of the phylum with the suffix -viricota for virus phylum. These viruses are referred to as nucleocytoplasmic because they are often able to replicate in both the host's cell nucleus and cytoplasm.[3]
The phylum is notable for containing the giant viruses.[4][1] There are nine families of NCLDVs that all share certain genomic and structural characteristics; however, it is uncertain whether the similarities of the different families of this group have a common viral ancestor.[5] One feature of this group is a large genome and the presence of many genes involved in DNA repair, DNA replication, transcription, and translation. Typically, viruses with smaller genomes do not contain genes for these processes. Most of the viruses in this family also replicate in both the host's nucleus and cytoplasm, thus the name nucleocytoplasmic.
There are 47 NCLDV core genes currently recognised. These include four key proteins involved in DNA replication and repair: the enzymes DNA polymerase family B, the topoisomerase II A, the FLAP endonuclease and the processing factor proliferating cell nuclear antigen. Other proteins include DNA dependent RNA polymerase II and transcription factor II B.
Taxonomy
The following classes and orders are recognized, under which are families mentioned in this article:
- Class Megaviricetes
- Order Pimascovirales
- Ascoviridae
- Iridoviridae
- Marseilleviridae
- (Pithoviridae?) – by etymology of Pimascovirales
- (Mininucleoviridae?) – by phylogeny
- Order Imitervirales
- Order Algavirales
- Phycodnaviridae
- (Pandoraviridae?) – by phylogeny
- Order Pimascovirales
- Class Pokkesviricetes
- Order Asfuvirales
- Order Chitovirales
- Order
The unrecognized families are parenthesized and placed in the most likely location.
Hosts
Host organisms typically include protozoa, invertebrates and eukaryotic algae. The class Pokkesviricetes infects familiar vertebrates, including multiple farm animals and humans.
Examples
Ascoviridae
Order Pimascovirales. Members of the family Ascoviridae come in different shapes. Some can be rod-shaped, while others are oval. They measure up to 130 nm wide and 400 nm long. These viruses have circular double stranded DNA that have a length of about 100–200 kilobase pairs. They infect lepidopteran insect larvae and can infect through parasitoid wasps. Once they infect they replicate and cause death in insect pest.[7] Ascoviridae can have up to 180 genes in its genome. The replication of this virus takes place in the nucleus of the host cell. When it replicates, it causes the nucleus to increase in size and eventually burst. After, the virion starts to form and spread.[8]
Asfarviridae
Order Asfuvirales. A member of the family Asfarviridae is known as an asfarvirus. This virus is the cause of African swine fever. Some of the symptoms for this flu include fever, high pulse, fast breathing, and it can cause death. These symptoms can be similar to those from hog cholera, the difference is that the African swine flu can not be cured. There is no vaccine developed to fight this virus.[9]
Iridoviridae
Order Pimascovirales. The
Marseilleviridae
Order Pimascovirales. The Marseilleviridae viruses have double stranded DNA genomes that are about 368 kilobases long. Members of the family can have about 457 open reading frames (ORFs) in its genome. The host organisms are amoebae. Once it infects, viral replication takes place in virus factories in the cytoplasm. It was found that the genome of the family Marseilleviridae codes for about 28 different proteins.[12] The capsid of the marseillevirus is about 250 nm wide with a geometry shape of an icosahedral. The replication of this virus usually occurs near the nucleus once it infects the amoeba. Once the virus infects it can cause a shape change in the host's nucleus.[13]
Mimiviridae
Order Imitervirales. The
Traditionally only these viruses have been grouped into a family Mimiviridae. Later it appeared that the viruses of the Organic Lake Phycodna Group (OLPG) are more related to Mimiviruses than to Phycodnaviruses. For this reason it has been proposed adding them to legacy Mimiviridae as new subfamily Mesomimivirinae in order to form the more comprehensive family Megaviridae. For this reason, the term Mimiviridae was used sensu lato synonymous with Megaviridae.[17][18][19][20][21][22] However, since the ICTV has created a new order Imitervirales officially containing the (legacy) Mimiviridae, proposed Mesomimivirinae are proposed to be upgraded as a new family Mesomimiviridae, i. e. as sister family of legacy Mimiviridae (within this order).
Pandoraviridae
Possibly order Algavirales. Pandoraviridae Discovered in 2013 from a coastal water sample in Chile. It is mostly found infecting amoebae. It has a length of 1 micrometer long and .5 micrometer wide. Its genome can be up to 2.5 million base pairs long.[23] The replication of this virus takes place in the cytoplasm. Like other giant viruses, it affects the host's nucleus and can take up to 15 hours to start infecting.[24] Although it is found in water, it does not affect humans, it may actually help us by increasing the production of oxygen in aquatic environments.[25]
Order Algavirales. The Phycodnaviridae are icosahedral in shape with a double-stranded DNA molecule. Some members of this family can have a linear double-stranded DNA while others have a circular double stranded DNA. The genome has been found to be up to 560 kilobases in length. Up to 50% of the DNA can be represented by guanine or cytosine. This virus is known to infect algae, which means it is found in the ocean.[26]
Pithoviridae
Possibly order Pimascovirales. The Pithoviridae have only two known representatives. These viruses infects amoebas and can survive in low temperatures. For years this virus was believed to be frozen, but due to climate change it has begun to show up again.[27] This is a double stranded DNA virus with its size being 610 kilobases long. The genome is estimated to code for 476 open reading frames. The viron is rod shaped with a length of 1,100 nm long and 500 nm in diameter.[28]
Poxviridae
Order Chitovirales. The Poxviridae have a linear double-stranded DNA molecule that can have a length of up to 230 kilobases. The replication of these viruses takes place in the cytoplasm. Smallpox, cowpox, and other pox viruses belong to this family.[29]
Mininucleoviridae
Possibly order Pimascovirales. A new family has been proposed - Mininucleoviridae - for a family of large viruses that replicate in crustacea.[6] Members of this proposed family include Carcinus maenas virus 1 (CmV1),[note 1] Dikerogammarus haemobaphes virus 1 (DhV1),[note 2] and Panulirus argus virus 1 (PaV1).[note 3]
Unclassified taxa
This section's factual accuracy may be compromised due to out-of-date information. (May 2020) |
- Cedratvirus – now under Pithoviridae (Pimascovirales)
- Choanovirus – part of extended Mimiviridae, a clade distinct from Mimiviridae proper;[30] (Imitervirales)
- Dinodnavirus – now under Asfarviridae (Asfuvirales)[31]
- Faustovirus – now under Asfarviridae (Asfuvirales)
- Kaumoebavirus – clusters under Asfarviridae (Asfuvirales)
- Klothovirus – no sequences available
- Megaklothovirus – no sequences available
- Medusavirus – proposed to be its own family Medusaviridae, possibly close to Mollivirus[32] or basal in Nucleocytoviricota
- Meelsvirus – no sequences available
- Mollivirus – close to Pandoravirus (Algavirales)
- Namao virus – (together with Faunusvirus sp. from metagenomics) close to Cafeteriavirus; possibly together with other Sturgeon-NCLDVs; (Imitervirales)
- Orpheovirus – likely under Pithoviridae; sister group to Cedratvirus[33] (Pimascovirales)
- Pacmanvirus – likely under Asfarviridae (Asfuvirales)
- Platanovirus – similar to Megavirus[34] or Tupanvirus (Imitervirales)
- Sissivirus and Misannotatedvirus – (together with Solumnvirus, Solivirus from metagenomics) possibly under Pithoviridae
- Tupanvirus – possibly under Mimiviridae (Imitervirales)
- Urceolovirus – possibly under Nucleocytoviricota
- Usurpativirus and Clandestinovirus – a clade possibly under Phycodnaviridae nearby Chlorovirus (Algavirales)
- Yasminevirus – close to Klosneuvirus and Bodo saltans virus; (together with Gaeavirus, Homavirus, Barrevirus, Fadolivirus, Dasosvirus, Edafovirus, Terrestrivirus, Harvfovirus, Hyperionvirus from metagenomics) members of Mimiviridae (Imitervirales)
Phylogenetics
The general consensus is that
The origin of the NCLDVs may predate that of their eukaryotic hosts, judging from their RNA polymerase structures.[36]
See also
Notes
- ^ CmV1 infects Carcinus maenas
- ^ DhV1 infects Dikerogammarus haemobaphes
- ^ PaV1 infects Panulirus argus
References
- ^ PMID 23812617.
- ^ a b c d e "Virus Taxonomy: 2019 Release". talk.ictvonline.org. International Committee on Taxonomy of Viruses. Retrieved 25 April 2020.
- .
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- ^ PMID 31937645.
- ^ "Ascoviridae—Ascoviridae—dsDNA Viruses—International Committee on Taxonomy of Viruses (ICTV)". International Committee on Taxonomy of Viruses (ICTV). Archived from the original on December 8, 2017. Retrieved 2017-12-07.
- PMID 28218573.
- ^ "African swine fever (ASF) | animal disease". Encyclopedia Britannica. Retrieved 2017-12-07.
- ^ "Iridoviridae—Iridoviridae—dsDNA Viruses—International Committee on Taxonomy of Viruses (ICTV)". International Committee on Taxonomy of Viruses (ICTV). Retrieved 2017-12-07.
- ^ Ke F, Zhang QY. ADRV 12L: A Ranaviral Putative Rad2 Family Protein Involved in DNA Recombination and Repair. Viruses. 2022 Apr 27;14(5):908. doi: 10.3390/v14050908. PMID: 35632650; PMCID: PMC9146916
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- ^ a b c d Lad SB, Upadhyay M, Thorat P, Nair D, Moseley GW, Srivastava S, Pradeepkumar PI, Kondabagil K. Biochemical Reconstitution of the Mimiviral Base Excision Repair Pathway. J Mol Biol. 2023 Sep 1;435(17):168188. doi: 10.1016/j.jmb.2023.168188. Epub 2023 Jun 26. PMID: 37380013
- ^ Fischer MG, Kelly I, Foster LJ, Suttle CA. The virion of Cafeteria roenbergensis virus (CroV) contains a complex suite of proteins for transcription and DNA repair. Virology. 2014 Oct;466-467:82-94. doi: 10.1016/j.virol.2014.05.029. Epub 2014 Jun 25. PMID: 24973308
- PMID 25727355. Figure 3
- PMID 23557328.
- ^ Blog of Carolina Reyes, Kenneth Stedman: Are Phaeocystis globosa viruses (OLPG) and Organic Lake phycodnavirus a part of the Phycodnaviridae or Mimiviridae?, on ResearchGate, Jan. 8, 2016
- PMID 27965659.
- PMID 26459929. Figure 6
- S2CID 88440241.
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- ^ "Biggest Virus Yet Found, May Be Fourth Domain of Life?". 2013-07-19. Archived from the original on July 21, 2013. Retrieved 2017-12-07.
- PMID 19216434.
- ^ Ornes, Stephen (2017-07-31). "Return of the giant zombie virus". Science News for Students. Retrieved 2017-12-07.
- ^ "Pithovirus". viralzone.expasy.org. Retrieved 2017-12-07.
- PMID 23838441.
- PMID 31548428.
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- PMID 30728258.
- PMID 29403444.
- doi:10.1002/imaging.6224 (inactive 31 January 2024).)
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: CS1 maint: DOI inactive as of January 2024 (link - ^ PMID 31506349.
External links
- Data related to Nucleocytoviricota at Wikispecies