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Adenine methylation is very scarce in the Drosophila genome and not erased by the ten-eleven translocation dioxygenase

Manon Boulet, Guerric Gilbert, Yoan Renaud, Martina Schmidt, Émilie Plantié, Romane Bertrand, Xinsheng Nan, Tomasz P. Jurkowski, Mark Helm, Laurence Vandel, Lucas Waltzer

2023eLife13 citationsDOIOpen Access PDF

Abstract

N6-methyladenine (6mA) DNA modification has recently been described in metazoans, including in Drosophila , for which the erasure of this epigenetic mark has been ascribed to the ten-eleven translocation (TET) enzyme. Here, we re-evaluated 6mA presence and TET impact on the Drosophila genome. Using axenic or conventional breeding conditions, we found traces of 6mA by LC-MS/MS and no significant increase in 6mA levels in the absence of TET, suggesting that this modification is present at very low levels in the Drosophila genome but not regulated by TET. Consistent with this latter hypothesis, further molecular and genetic analyses showed that TET does not demethylate 6mA but acts essentially in an enzymatic-independent manner. Our results call for further caution concerning the role and regulation of 6mA DNA modification in metazoans and underline the importance of TET non-enzymatic activity for fly development.

Topics & Concepts

BiologyEpigeneticsDrosophila (subgenus)AxenicDNA methylationGenomeDrosophila melanogasterChromosomal translocationGeneticsMethylationDNAEpigenomeGeneCell biologyGene expressionBacteriaEpigenetics and DNA MethylationRNA modifications and cancerCancer-related gene regulation
Adenine methylation is very scarce in the Drosophila genome and not erased by the ten-eleven translocation dioxygenase | Litcius