The tRNA methyltransferase 1 (TRMT1) enzyme catalyzes the N2,N2-dimethylguanosine (m2,2G) modification in tRNAs. Intriguingly, vertebrates encode an additional tRNA methyltransferase 1-like (TRMT1L) paralog. Here, we use a comprehensive tRNA sequencing approach to decipher targets of human TRMT1 and TRMT1L. We find that TRMT1 methylates all known tRNAs containing guanosine at position 26, while TRMT1L represents the elusive enzyme catalyzing m2,2G at position 27 in tyrosine tRNAs. Surprisingly, TRMT1L is also necessary for maintaining 3-(3-amino-3-carboxypropyl)uridine (acp3U) modifications in a subset of tRNAs through a process that can be uncoupled from methyltransferase activity. We also demonstrate that tyrosine and serine tRNAs are dependent upon m2,2G modifications for their stability and function in translation. Notably, human patient cells with disease-associated TRMT1 variants exhibit reduced levels of tyrosine and serine tRNAs. These findings uncover unexpected roles for TRMT1 paralogs, decipher functions for m2,2G modifications, and pinpoint tRNAs dysregulated in human disorders caused by tRNA modification deficiency.
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Article Synopsis
- TRMT1 is a methyltransferase enzyme that modifies certain tRNAs by adding a methyl group at position G26, functioning differently in cytoplasmic and mitochondrial tRNAs.
- Mutations in human TRMT1 are linked to neurological disorders because they disrupt the formation of the methylated tRNA, but the exact mechanism of TRMT1's activity and its specific substrates remains unclear.
- The study identified specific "mG26 criteria" that dictate how TRMT1 recognizes and modifies tRNAs, and these criteria appear to apply to tRNAs across various higher eukaryotic species.
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