Giant virus

While the exact criteria used in the scientific literature varies, giant viruses are usually defined as those with virions larger than 200-300 nanometers in their smallest dimension (making them visible by light microscopy) and a genome size greater than 200-300 kb pairs. All known giant viruses belong to the Nucleocytoviricota, the nucleocytoplasmic large DNA viruses, meaning they are known to replicate in both the host cell nucleus and cytoplasm, and have large, double-stranded DNA genomes. Although all giant viruses belong to this phylum, they are not a monophyletic group, as some members of the Nucleocytoviricota, such as the genus Prasinovirus, are not giant viruses. The large genomes of many giant viruses encode unusual genes that are not found in other viruses, including genes involved in glycolysis and the TCA cycle, fermentation, and the cytoskeleton. Giant viruses from the deep ocean, terrestrial sources, and human patients contain genes encoding cytochrome P450 enzymes. The origin of these P450 genes in giant viruses remains unknown, but they may have been acquired from an ancient host. Giant viruses infect a large variety of eukaryotic hosts, such as amoebae, algae, lepidopterans, and humans, and are widely distributed in the natural environment. Giant viruses may also be further infected by virophages, the first of which was discovered in the co-infecting Acanthamoeba castellanii mamavirus (ACMV). and APMV. (A) Cryo-electron micrograph of four CroV particles. (B) Single CroV particle with concave core depression (white arrow). (C) Single APMV particle. Scale bars in (A–C) represent 2,000 Å. == History ==

The term 'giant virus' was coined in the late 1990s to describe chloroviruses of the family Phycodnaviridae, which were found to have unusually large genomes. The term was further cemented in scientific literature after the characterization of Acanthamoeba polyphaga Mimivirus (APMV) in 2003 and its genetic sequencing in 2004 that revealed its genome was 1.2 million base pairs long, larger than the sequenced genomes of many bacteria. It was initially discovered in 1992 infecting Acanthamoeba polyphaga and mistakenly identified as a gram-positive bacteria. The emerging concept of the 'giant' virus led to the term 'girus' being coined to refer to the group in 2006. In 2008, the first virophage, Sputnik, was discovered parasitizing the Acanthamoeba polyphaga mimivirus (APMV), beginning a series of discoveries on giant virus parasitism. In 2011, Mavirus, which parasitizes the Cafeteria roenbergensis virus (CroV), was the first virophage found that was shown to be related to the large Maverick transposons or politons that are found in some eukaryotic cells. Metagenomic samples of ocean water in the 2010s revealed that giant viruses are ubiquitous in the marine environment, where they have been found to infect marine microzooplankton. The first of these was described in 1995 as BV-PW1, found in seawater samples collected from 1989 to 1991, although its host was misidentified as belonging to the genus Bodo. The host was later correctly identified as being in the species Cafeteria roenbergensis in 2010, and the virus was renamed Cafeteria roenbergensis virus (CroV). Several years later, in 2018, the Bodo saltans virus with a genome size of ~1.4 Mb that infected an isolate of Bodo saltans was cultured from a freshwater pond, and related viruses were found to be widespread in marine waters. Further notable discoveries include the largest known viral genome (~2.5 Mbp) of Pandoravirus salinus in 2013, the recovery of Pithovirus sibericum in a 30,000-year-old ice core in 2014, and the identification of the virus with the longest known virion, Megaklothovirus horridgei, in 2018. ==Genetics and evolution==

The genomes of giant viruses are the largest known for viruses, and contain genes that encode for important elements of translation machinery, a characteristic that had previously been believed to be indicative of cellular organisms. These genes include multiple genes encoding a number of aminoacyl tRNA synthetases, enzymes that catalyze the esterification of specific amino acids or their precursors to their corresponding cognate tRNAs to form an aminoacyl tRNA that is then used during translation. The possible complicated ancestral organism is also a topic of debate: by one proposal, it might represent a fourth domain of life, A molecular dating study shows that the divergence time of the last common ancestor of the giant viruses was within the last billion years, which is much younger than the origins of the known domains of life. ==Comparison of largest known giant viruses==

The whole list is in the Giant Virus Toplist created by the Giant Virus Finder software. As of June 11, 2018, there were 183 listed. 1Mutator S (MutS) and its homologs are a family of DNA mismatch repair proteins involved in the mismatch repair system that acts to correct point mutations or small insertion/deletion loops produced during DNA replication, increasing the fidelity of replication. 2A stargate is a five-pronged star structure present on the viral capsid forming the portal through which the internal core of the particle is delivered to the host's cytoplasm. ==See also==