Lambdavirus#Circumscription

The following species are recognized:

• Lambdavirus DE3
• Lambdavirus HK629
• Lambdavirus HK630
• Lambdavirus lambda
• Lambdavirus lvO276

The genus also includes several unclassified viruses—including the corynephages β and ω, which infect Corynebacterium diphtheriae and carry the deadly diphtheria toxin.NCBI: [https://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=10703&lvl=3&srchmode=2 Corynephage beta] (species)NCBI: [https://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=10714&lvl=3&srchmode=2 Corynephage omega] (species)

Lambdaviruses are nonenveloped, with a head and tail. The head is about 60 nm in diameter, consisting of 72 capsomers (T=7, levo).

All species have been fully sequenced. They range between 42k and 49k nucleotides, with 56 to 73 proteins.{{cite web |title=Lambdavirus - 5 complete genomes |url=https://www.ncbi.nlm.nih.gov/genomes/GenomesGroup.cgi?taxid=186765 |publisher=NCBI |access-date=12 May 2021}}

The virus attaches to the host cell's adhesion receptors using its terminal fiber, and ejects the viral DNA into the host cytoplasm via [http://viralzone.expasy.org/all_by_protein/3952.html long flexible tail ejection system]. Viral replication is cytoplasmic. Replication follows the replicative transposition model. DNA-templated transcription is the method of transcription. Translation takes place by -1 ribosomal frameshifting, and +1 ribosomal frameshifting. Once the viral genes have been replicated, the procapsid is assembled and packed. The tail is then assembled and the mature virions are released via lysis, and holin/endolysin/spanin proteins.

Bacteria serve as the natural host. Transmission routes are passive diffusion.

According to ICTV's taxon history:{{cite web|title=History of the taxon: Genus: Lambdavirus (2024 Release, MSL #40)|url=https://ictv.global/taxonomy/taxondetails?taxnode_id=202401069&taxon_name=Lambdavirus|publisher=International Committee on Taxonomy of Viruses|access-date=6 March 2025}}

• Lambda phage appeared in the [http://ictvonline.org/proposals/ICTV%201st%20Report.pdf first report] of 1971, unassigned to order, family, or subfamily.
• Genus Lambda phage group created in the [http://ictvonline.org/proposals/ICTV%202nd%20Report.pdf second report] (1975). To it were also added three phages: PA2, phiD328, and phi80 (none of which are in 2024 Lambdavirus).
• Assigned to family Siphoviridae in 1984 upon the family's creation.
• Renamed to Lambda-like phages in [https://web.archive.org/web/20250117011012/https://ictv.global/ictv/proposals/ICTV%206th%20Report.pdf sixth report] (1995). By this point phi80 and PA2 were still in the genus. HK022, HK97, phiD328 were abolished.
• Siphoviridae moved to newly created order Caudovirales in 1998.
• Renamed to Lambda-like viruses in ICTV's [http://ictvonline.org/proposals/ICTV%207th%20Report.pdf seventh report] in 1999.
• In [https://web.archive.org/web/20150211233011/http://ictvonline.org/proposals/2011.010aB.A.v2.Caudovirales_genus-ren.pdf 2012], the genus was renamed again, to Lambdalikevirus.
• The genus was renamed to Lambdavirus in 2015.
• Siphoviridae abolished in 2021.

The scope of the genus has changed significantly in its evolution. Originally a group of all so-called lambdoid phages (synonyms Lambda-like viruses, Lambda-like phages, Lambda phage group), its scope has narrowed significantly.

• HK022 and HK97 were abolished in 1995 but re-admitted in 2004 into this genus. In 2017 they became genus Hk97virus.{{cite web |title=Taxon History Byrnievirus HK97 {{!}} ICTV |url=https://ictv.global/taxonomy/taxondetails?taxnode_id=202401071&taxon_name=Byrnievirus%20HK97 |website=ictv.global}} In 2018 HK022 was moved to Hendrixvirus by rename of the genus. In 2019 HK022 was moved to its own genus Shamshuipovirus.{{cite web |title=Taxon history: Shamshuipovirus HK022 |url=https://ictv.global/taxonomy/taxondetails?taxnode_id=202401070&taxon_name=Shamshuipovirus%20HK022 |website=ictv.global}}
• PA2 was abolished at an unknown date and re-admitted in 2016 in the genus Tl2011virus. In 2018 it was moved to Oslovirus by rename of the genus.{{cite web |title=Taxon history: Oslovirus PA2 |url=https://ictv.global/taxonomy/taxondetails?taxnode_id=202400617&taxon_name=Oslovirus%20PA2 |website=ictv.global}}
• phiD328 and phi80 are not found anywhere in the 2024 ICTV taxonomy.

Given the above history, the latest document that defines the boundary of the genus is the 2017 document that created Hk97virus. Unfortunately the document does not specifically address the inclusion criteria for Lambdavirus, only the evidence for their new genus being monophyletic and reasonably similar with each other. The only part that shows the similarity among the members of Lambdavirus was in figure 2, a Gegenees BLASTN analysis using window of 100 bp and a slide of 50 bp. The lowest Gegeenes similarity among members of the group was 62.5%.{{cite web |title=2017.008B To create a new genus, Hk97virus containing two (2) existing and nine (9) new species within the family Siphoviridae. |url=https://ictv.global/ictv/proposals/2017.008B.A.v1.Hk97virus.zip}} The general guideline from ICTV's Bacterial and Archaeal Viruses Subcommitee in 2017 was 50% nucleotide similarity.{{cite journal |last1=Adriaenssens |first1=E |last2=Brister |first2=JR |title=How to Name and Classify Your Phage: An Informal Guide. |journal=Viruses |date=3 April 2017 |volume=9 |issue=4 |page=70 |doi=10.3390/v9040070 |doi-access=free |pmid=28368359|pmc=5408676 }}

The term lambdoid phage remains commonly used. It originally consisted of an operational definition of "phages that can recombine with lambda and form a functional, recombinant phage". The term was slightly expanded in the genomic era to mean phages that have a similar-enough functional gene order and at least some patch of homology so that, if hypothetically recombined with lambda, it would form a functional phage with all required genes.{{cite journal | vauthors = Casjens SR, Hendrix RW | title = Bacteriophage lambda: Early pioneer and still relevant | journal = Virology | volume = 479-480 | pages = 310–330 | date = May 2015 | pmid = 25742714 | pmc = 4424060 | doi = 10.1016/j.virol.2015.02.010 }} The possibility of recombination does not necessarily imply a recent common ancestor and the apparently recombinant character of P22 adds to the problem.{{cite journal |last1=Ackermann |first1=HW |title=The lambda - P22 problem. |journal=Bacteriophage |date=January 2015 |volume=5 |issue=1 |pages=e1017084 |doi=10.1080/21597081.2015.1017084 |pmid=26442187|pmc=4422791 }} Phages that have been called lambdoid include members as diverse as Lederbergvirus P22, Byrnievirus HK97, Salmonella phage ES18, Salmonella phage Gifsy-2, and Traversvirus tv933W.{{cite journal |last1=Casjens |first1=Sherwood R. |last2=Gilcrease |first2=Eddie B. |last3=Winn-Stapley |first3=Danella A. |last4=Schicklmaier |first4=Petra |last5=Schmieger |first5=Horst |last6=Pedulla |first6=Marisa L. |last7=Ford |first7=Michael E. |last8=Houtz |first8=Jennifer M. |last9=Hatfull |first9=Graham F. |last10=Hendrix |first10=Roger W. |title=The Generalized Transducing Salmonella Bacteriophage ES18: Complete Genome Sequence and DNA Packaging Strategy |journal=Journal of Bacteriology |date=February 2005 |volume=187 |issue=3 |pages=1091–1104 |doi=10.1128/JB.187.3.1091-1104.2005|pmid=15659686 |pmc=545730 }}

{{Reflist}}

• [http://viralzone.expasy.org/all_by_species/512.html Viralzone: Lambdalikevirus]
• [http://ictvonline.org/virusTaxonomy.asp ICTV]

{{Baltimore classification}}

{{Taxonbar|from=Q18813097}}

{{Use dmy dates|date=April 2017}}

Category:Siphoviridae

Category:Virus genera