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Noncanonical DNA polymerization by aminoadenine-based siphoviruses

Valérie Pezo, Faten Jaziri, Pierre-Yves Bourguignon, Dominique Louis, Deborah Jacobs‐Sera, Jef Rozenski, Sylvie Pochet, Piet Herdewijn, Graham F. Hatfull, P.A. Kaminski, Philippe Marlière

2021Science71 citationsDOIOpen Access PDF

Abstract

Biosynthesis and replication, from A to Z Four nucleobases. adenine (A), cytosine (C), guanine (G), and thymine (T), are usually thought to be invariable in DNA. In bacterial viruses, however, each of the DNA bases have variations that help them to escape degradation by bacterial restriction enzymes. In the genome of cyanophage S-2L, A is completely replaced by diaminopurine (Z), which forms three hydrogen bonds with T and thus creates non–Watson-Crick base pairing in the DNA of this virus (see the Perspective by Grome and Isaacs). Zhou et al. and Sleiman et al. determined the biochemical pathway that produces Z, which revealed more Z genomes in viruses hosted in bacteria distributed widely in the environment and phylogeny. Pezo et al. identified a DNA polymerase that incorporates Z into DNA while rejecting A. These findings enrich our understanding of biodiversity and expand the genetic palette for synthetic biology. Science , this issue p. 512 , 516 , 520 ; see also p. 460

Topics & Concepts

DNACytosineGuanineThymineDNA polymeraseGenomeNucleobaseDNA replicationPolymeraseBase pairBiologyBacterial genome sizeGeneticsCircular bacterial chromosomeChemistryNucleotideGeneBacteriophages and microbial interactionsPlant Virus Research StudiesViral gastroenteritis research and epidemiology
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