Escherichia virus 186

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Escherichia virus 186
Virus classification Red Pencil Icon.png
(unranked): Virus
Realm: Duplodnaviria
Kingdom: Heunggongvirae
Phylum: Uroviricota
Class: Caudoviricetes
Order: Caudovirales
Family: Myoviridae
Genus: Eganvirus
Species:
Escherichia virus 186

Escherichia virus 186 is a virus of the family Myoviridae , genus Eganvirus . [1] [2]

As a member of the group I of the Baltimore classification, Escherichia virus 186 is a dsDNA virus. According to its family, Myoviridae, its morphology is nonenveloped and consist of a head and a tail separated by a neck and its genome is linear. The propagation of the virions includes the attaching to a host cell (a bacterium, as Escherichia virus 186 is a bacteriophage) and the injection of the double stranded DNA; the host transcribes and translates it to manufacture new particles. To replicate its genetic content requires host cell DNA polymerases and, hence, the process is highly dependent on the cell cycle. [3]

Use as a model system

Bacteriophage 186 has been studied as a model system for biological switches. [4] The phage can enter two developmental lifecycles called the lytic cycle and lysogeny and knowledge into how the decision between the two developmental routes may extend to other biological systems.[ citation needed ]

Bacteriophage 186 is often compared to the more extensively studied lambda phage as both their prophages respond to DNA damage in the host, more commonly known as the SOS response, even though the two bacteriophages are evolutionarily distinct.[ citation needed ]

Related Research Articles

<span class="mw-page-title-main">Lambda phage</span> Bacteriophage that infects Escherichia coli

Enterobacteria phage λ is a bacterial virus, or bacteriophage, that infects the bacterial species Escherichia coli. It was discovered by Esther Lederberg in 1950. The wild type of this virus has a temperate life cycle that allows it to either reside within the genome of its host through lysogeny or enter into a lytic phase, during which it kills and lyses the cell to produce offspring. Lambda strains, mutated at specific sites, are unable to lysogenize cells; instead, they grow and enter the lytic cycle after superinfecting an already lysogenized cell.

<i>Escherichia virus T4</i> Species of bacteriophase

Escherichia virus T4 is a species of bacteriophages that infect Escherichia coli bacteria. It is a double-stranded DNA virus in the subfamily Tevenvirinae from the family Myoviridae. T4 is capable of undergoing only a lytic lifecycle and not the lysogenic lifecycle. The species was formerly named T-even bacteriophage, a name which also encompasses, among other strains, Enterobacteria phage T2, Enterobacteria phage T4 and Enterobacteria phage T6.

<i>Myoviridae</i> Family of viruses

Myoviridae is a family of bacteriophages in the order Caudovirales. Bacteria and archaea serve as natural hosts. There are 625 species in this family, assigned to eight subfamilies and 217 genera.

<i>Caudovirales</i> Order of viruses

Caudovirales is an order of viruses known as the tailed bacteriophages. Under the Baltimore classification scheme, the Caudovirales are group I viruses as they have double stranded DNA (dsDNA) genomes, which can be anywhere from 18,000 base pairs to 500,000 base pairs in length. The virus particles have a distinct shape; each virion has an icosahedral head that contains the viral genome, and is attached to a flexible tail by a connector protein. The order encompasses a wide range of viruses, many containing genes of similar nucleotide sequence and function. However, some tailed bacteriophage genomes can vary quite significantly in nucleotide sequence, even among the same genus. Due to their characteristic structure and possession of potentially homologous genes, it is believed these bacteriophages possess a common origin.

<span class="mw-page-title-main">Lysogenic cycle</span> Process of virus reproduction

Lysogeny, or the lysogenic cycle, is one of two cycles of viral reproduction. Lysogeny is characterized by integration of the bacteriophage nucleic acid into the host bacterium's genome or formation of a circular replicon in the bacterial cytoplasm. In this condition the bacterium continues to live and reproduce normally, while the bacteriophage lies in a dormant state in the host cell. The genetic material of the bacteriophage, called a prophage, can be transmitted to daughter cells at each subsequent cell division, and later events can release it, causing proliferation of new phages via the lytic cycle. Lysogenic cycles can also occur in eukaryotes, although the method of DNA incorporation is not fully understood. For instance the AIDS viruses can either infect humans lytically, or lay dormant (lysogenic) as part of the infected cells' genome, keeping the ability to return to lysis at a later time. The rest of this article is about lysogeny in bacterial hosts.

<span class="mw-page-title-main">T7 phage</span> Species of virus

Bacteriophage T7 is a bacteriophage, a virus that infects bacteria. It infects most strains of Escherichia coli and relies on these hosts to propagate. Bacteriophage T7 has a lytic life cycle, meaning that it destroys the cell it infects. It also possesses several properties that make it an ideal phage for experimentation: its purification and concentration have produced consistent values in chemical analyses; it can be rendered noninfectious by exposure to UV light; and it can be used in phage display to clone RNA binding proteins.

P1 is a temperate bacteriophage that infects Escherichia coli and some other bacteria. When undergoing a lysogenic cycle the phage genome exists as a plasmid in the bacterium unlike other phages that integrate into the host DNA. P1 has an icosahedral head containing the DNA attached to a contractile tail with six tail fibers. The P1 phage has gained research interest because it can be used to transfer DNA from one bacterial cell to another in a process known as transduction. As it replicates during its lytic cycle it captures fragments of the host chromosome. If the resulting viral particles are used to infect a different host the captured DNA fragments can be integrated into the new host's genome. This method of in vivo genetic engineering was widely used for many years and is still used today, though to a lesser extent. P1 can also be used to create the P1-derived artificial chromosome cloning vector which can carry relatively large fragments of DNA. P1 encodes a site-specific recombinase, Cre, that is widely used to carry out cell-specific or time-specific DNA recombination by flanking the target DNA with loxP sites.

<span class="mw-page-title-main">Bacteriophage P2</span> Species of virus

Bacteriophage P2, scientific name Escherichia virus P2, is a temperate phage that infects E. coli. It is a tailed virus with a contractile sheath and is thus classified in the genus Peduovirus, subfamily Peduovirinae, family Myoviridae within order Caudovirales. This genus of viruses includes many P2-like phages as well as the satellite phage P4.

Enterobacteria phage P4 is a temperate bacteriophage strain of species Escherichia virus P2 within genus Peduovirus, subfamily Peduovirinae, family Myoviridae. It is a satellite virus, requiring P2-related helper phage to grow lytically.

Salmonella virus PsP3 is a virus of the family Myoviridae, genus Eganvirus.

Escherichia virus Wphi is a virus of the family Myoviridae, genus Peduovirus.

Mannheimia virus PHL101 is a virus of the family Myoviridae, genus Baylorvirus.

Pseudomonas virus phiCTX is a virus of the family Myoviridae, genus Citexvirus.

Ralstonia virus RSA1 is a virus of the family Myoviridae, genus Aresaunavirus.

Salmonella virus Fels2 is a virus of the family Myoviridae, genus Felsduovirus.

Salmonella virus SopEphi is a virus of the family Myoviridae, genus Felsduovirus.

Yersinia virus L413C is a virus of the family Myoviridae, genus Peduovirus.

Listeria virus P100 is a virus of the family Herelleviridae, genus Pecentumvirus.

Staphylococcus virus G1 is a virus of the family Herelleviridae, genus Kayvirus.

Escherichia virus CC31, formerly known as Enterobacter virus CC31, is a dsDNA bacteriophage of the subfamily Tevenvirinae responsible for infecting the bacteria family of Enterobacteriaceae. It is one of two discovered viruses of the genus Karamvirus, diverging away from the previously discovered T4virus, as a clonal complex (CC). CC31 was first isolated from Escherichia coli B strain S/6/4 and is primarily associated with Escherichia, even though is named after Enterobacter.

References

  1. International Committee on Taxonomy of Viruses (ICTV) (2011). "Master Species List of 2011, version 2". Archived from the original on 12 April 2012. Retrieved 15 October 2012.
  2. Adams, MJ; Carstens, EB (2012). "Ratification vote on taxonomic proposals to the International Committee on Taxonomy of Viruses (2012)". Archives of Virology. 157 (7): 1411–22. doi: 10.1007/s00705-012-1299-6 . PMC   7086667 . PMID   22481600.
  3. Baltimore, D (1971). "Expression of animal virus genomes". Bacteriological Reviews. 35 (3): 235–41. PMC   378387 . PMID   4329869.
  4. Dodd, I; Egan, B (2002). "Action at a distance in CI repressor regulation of the bacteriophage 186 genetic switch". Molecular Microbiology. 45 (3): 697–710. doi:10.1046/j.1365-2958.2002.03038.x. PMC   2941640 . PMID   12139616.
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