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MutT homologue 1 (MTH1) removes N6-methyl-dATP from the dNTP pool

Emma Rose Scaletti, Karl S. A. Vallin, Lars Bräutigam, Antonio Sarno, Ulrika Warpman Berglund, Thomas Helleday, Pål Stenmark, Ann‐Sofie Jemth

2020Journal of Biological Chemistry22 citationsDOIOpen Access PDF

Abstract

, as indicated by increased N6-methyl-dA DNA levels in embryos developed from MTH1 knock-out zebrafish eggs microinjected with N6-methyl-dATP compared with noninjected embryos. N6-methyl-dATP activity is present in MTH1 homologues from distantly related vertebrates, suggesting evolutionary conservation and indicating that this activity is important. Of note, N6-methyl-dATP activity is unique to MTH1 among related NUDIX hydrolases. Moreover, we present the structure of N6-methyl-dAMP-bound human MTH1, revealing that the N6-methyl group is accommodated within a hydrophobic active-site subpocket explaining why N6-methyl-dATP is a good MTH1 substrate. N6-methylation of DNA and RNA has been reported to have epigenetic roles and to affect mRNA metabolism. We propose that MTH1 acts in concert with adenosine deaminase-like protein isoform 1 (ADAL1) to prevent incorporation of N6-methyl-(d)ATP into DNA and RNA. This would hinder potential dysregulation of epigenetic control and RNA metabolism via conversion of N6-methyl-(d)ATP to N6-methyl-(d)AMP, followed by ADAL1-catalyzed deamination producing (d)IMP that can enter the nucleotide salvage pathway.

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ChemistryBiochemistryMolecular biologyBiologyRNA modifications and cancerDNA Repair MechanismsBiochemical and Molecular Research
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