METTL16, a human m6A RNA methyltransferase, contains multiple RNA binding domains and is known to modify U6 and MAT2A RNAs. Usingmutagensis, we generated HEK293 cell lines stabling expressing nutated or WT forms of METTL16 to dtermine the imapct these mutations have on cell processes after removal of endogenous METTL16. We performed bottom-up, untargeted data dependent proteomics analysison all five cell lines to determine the global changes in peptide/protein abdundances; we identified 200-300 statistically significant altered proteinscompared to the wild-type exogenous METTL16 clone.