Probing N6-methyladenosine RNA modification status at single nucleotide resolution in mRNA and long noncoding RNA

N⁶-methyladenosine (m⁶A) is the most abundant modification in mammalian mRNA and long noncoding RNA (lncRNA). Recent discoveries of two m⁶A demethylases and cell-type and cell-state-dependent m⁶A patterns indicate that m⁶A modifications are highly dynamic and likely play important biological roles for RNA akin to DNA methylation or histone modification. Proposed functions for m⁶A modification include mRNA splicing, export, stability, and immune tolerance; but m⁶A studies have been hindered by the lack of methods for its identification at single nucleotide resolution. Here, we develop a method that accurately determines m⁶A status at any site in mRNA/lncRNA, termed site-specific cleavage and radioactive-labeling followed by ligation-assisted extraction and thin-layer chromatography (SCARLET). The method determines the precise location of the m⁶A residue and its modification fraction, which are crucial parameters in probing the cellular dynamics of m⁶A modification. We applied the method to determine the m⁶A status at several sites in two human lncRNAs and three human mRNAs and found that m⁶A fraction varies between 6% and 80% among these sites. We also found that many m⁶A candidate sites in these RNAs are however not modified. The precise determination of m⁶A status in a long noncoding RNA also enables the identification of an m⁶A-containing RNA structural motif.