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Four additional natural 7-deazaguanine derivatives in phages and how to make them.

Liang CuiSeetharamsing BalamkunduChuan-Fa LiuHong YeJacob HourihanAstrid RauschChristopher HaußEmelie NilssonMatthias HoetzingerKarin HolmfeldtWeijia ZhangMartínez-Alvarez LauraPeng XuDenise TremblaySylvain MoinauNatalie SolonenkoMatthew B SullivanYan-Jiun LeeAndrew MulhollandPeter R WeigeleValérie de Crécy-LagardPeter C DedonGeoffrey Hutinet
Published in: Nucleic acids research (2023)
Bacteriophages and bacteria are engaged in a constant arms race, continually evolving new molecular tools to survive one another. To protect their genomic DNA from restriction enzymes, the most common bacterial defence systems, double-stranded DNA phages have evolved complex modifications that affect all four bases. This study focuses on modifications at position 7 of guanines. Eight derivatives of 7-deazaguanines were identified, including four previously unknown ones: 2'-deoxy-7-(methylamino)methyl-7-deazaguanine (mdPreQ1), 2'-deoxy-7-(formylamino)methyl-7-deazaguanine (fdPreQ1), 2'-deoxy-7-deazaguanine (dDG) and 2'-deoxy-7-carboxy-7-deazaguanine (dCDG). These modifications are inserted in DNA by a guanine transglycosylase named DpdA. Three subfamilies of DpdA had been previously characterized: bDpdA, DpdA1, and DpdA2. Two additional subfamilies were identified in this work: DpdA3, which allows for complete replacement of the guanines, and DpdA4, which is specific to archaeal viruses. Transglycosylases have now been identified in all phages and viruses carrying 7-deazaguanine modifications, indicating that the insertion of these modifications is a post-replication event. Three enzymes were predicted to be involved in the biosynthesis of these newly identified DNA modifications: 7-carboxy-7-deazaguanine decarboxylase (DpdL), dPreQ1 formyltransferase (DpdN) and dPreQ1 methyltransferase (DpdM), which was experimentally validated and harbors a unique fold not previously observed for nucleic acid methylases.
Keyphrases
  • nucleic acid
  • circulating tumor
  • single molecule
  • cell free
  • gene expression
  • binding protein