Michael C. Owens scite author profile

Oxidation of 5-methylcytosine (5mC) in DNA by the Ten-eleven translocation (TET) family of enzymes is indispensable for gene regulation in mammals. More recently, evidence has emerged to support a biological function for TET-mediated m5C oxidation in messenger RNA. Here, we describe a previously uncharacterized role of TET-mediated m5C oxidation in transfer RNA (tRNAs). We found that the TET-mediated oxidation product 5-hydroxylmethylcytosine (hm5C) is specifically enriched in tRNA inside cells and that the oxidation activity of TET2 on m5C in tRNAs can be readily observed in vitro. We further observed that hm5C levels in tRNA were significantly decreased in Tet2 KO mouse embryonic stem cells (mESCs) in comparison to wild type mESCs. Reciprocally, induced expression of the catalytic domain of TET2 led to an obvious increase in hm5C and a decrease in m5C in tRNAs relative to uninduced cells. Strikingly, we also show that TET2-mediated m5C oxidation in tRNA promotes translation in vitro. These results suggest TET2 may influence translation through impacting tRNA methylation and reveal an unexpected role for TET enzymes in regulating multiple nodes of the central dogma.

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Michael C. Owens

Mechanisms of Human Papillomavirus-Induced Oncogenesis

Sexually dimorphic RNA helicases DDX3X and DDX3Y differentially regulate RNA metabolism through phase separation

TET-mediated 5-methylcytosine oxidation in tRNA promotes translation

RNA sequencing distinguishes benign from malignant pancreatic lesions sampled by EUS-guided FNA

Primary Tracheal Non-Hodgkin's Lymphoma

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