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Literature DB >> 25956737

Novel DNA packaging recognition in the unusual bacteriophage N15.

Michael Feiss¹, Henriette Geyer², Franco Klingberg³, Norma Moreno⁴, Amanda Forystek⁵, Nasib Karl Maluf⁶, Jean Sippy¹.

Abstract

Phage lambda's cosB packaging recognition site is tripartite, consisting of 3 TerS binding sites, called R sequences. TerS binding to the critical R3 site positions the TerL endonuclease for nicking cosN to generate cohesive ends. The N15 cos (cos(N15)) is closely related to cos(λ), but whereas the cosB(N15) subsite has R3, it lacks the R2 and R1 sites and the IHF binding site of cosB(λ). A bioinformatic study of N15-like phages indicates that cosB(N15) also has an accessory, remote rR2 site, which is proposed to increase packaging efficiency, like R2 and R1 of lambda. N15 plus five prophages all have the rR2 sequence, which is located in the TerS-encoding 1 gene, approximately 200 bp distal to R3. An additional set of four highly related prophages, exemplified by Monarch, has R3 sequence, but also has R2 and R1 sequences characteristic of cosB-λ. The DNA binding domain of TerS-N15 is a dimer.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: Bacteriophage; DNA packaging; Terminase; Virus DNA packaging; Virus DNA recognition; Virus assembly; Virus evolution

Mesh：

Substances：

Year: 2015 PMID： 25956737 PMCID： PMC4461450 DOI： 10.1016/j.virol.2015.03.027

Source DB: PubMed Journal: Virology ISSN： 0042-6822 Impact factor: 3.616

55 in total

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