Published on Aug. 1, 2019 in Mol Cell volume 75, 3.
PubMed ID: 31279658
Abstract:
mRNAs are regulated by nucleotide modifications that influence their cellular fate. Two of the most abundant modified nucleotides are N-methyladenosine (mA), found within mRNAs, and N,2'-O-dimethyladenosine (mAm), which is found at the first transcribed nucleotide. Distinguishing these modifications in mapping studies has been difficult. Here, we identify and biochemically characterize PCIF1, the methyltransferase that generates mAm. We find that PCIF1 binds and is dependent on the mG cap. By depleting PCIF1, we generated transcriptome-wide maps that distinguish mAm and mA. We find that mA and mAm misannotations arise from mRNA isoforms with alternative transcription start sites (TSSs). These isoforms contain mAm that maps to "internal" sites, increasing the likelihood of misannotation. We find that depleting PCIF1 does not substantially affect mRNA translation but is associated with reduced stability of a subset of mAm-annotated mRNAs. The discovery of PCIF1 and our accurate mapping technique will facilitate future studies to characterize mAm's function.