Project description:Dynamic mRNA modification in the form of N6-methyladenosine (m6A) adds considerable richness and sophistication to gene regulation. The m6A mark is asymmetrically distributed along mature mRNAs, with a strong preference around the stop codon and 3’UTR. Nevertheless, approximately 35% of m6A residues are located within the coding region (CDS). It has been suggested that methylation in CDS slows down translation elongation by interfering the decoding process. However, neither the decoding feature of endogenous mRNAs nor the physiological significance of CDS m6A has been clearly defined. By integrating Ribo-seq and m6A-seq data sets, we found that CDS m6A methylation leads to ribosome pausing in a codon-specific manner. Unexpectedly, removing CDS m6A modification from these transcripts results in a further decrease of translation. A systemic analysis of RNA structural datasets revealed that CDS m6A methylation positively regulates translation by resolving mRNA secondary structures. We further demonstrate that the elongation-promoting effect of CDS methylation requires the RNA helicase-containing m6A reader YTHDC2. Our findings established the physiological significance of CDS methylation and uncovered non-overlapping function of m6A reader proteins.

Project description:m6A in mRNA coding regions promotes translation via the RNA helicase-containing YTHDC2

Project description:N6-methyladenosine (m6A) is a widespread internal RNA modification whose function is poorly understood. Here we report that m6A residues within the 5'UTR promote a novel form of cap-independent translation which is mediated through an interaction between m6A residues and the translation initiation factor, eIF3. We present eIF3a PAR-iCLIP data which demonstrate that eIF3 predominantly binds mRNAs within the 5'UTR. eIF3 binding sites are also in proximity to m6A residues within the 5'UTR of cellular mRNAs. Two replicates of eIF3a PAR-iCLIP in HEK293T cells.

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Project description:N6-methyladenosine (m6A) is a widespread internal RNA modification whose function is poorly understood. Here we report that m6A residues within the 5'UTR promote a novel form of cap-independent translation which is mediated through an interaction between m6A residues and the translation initiation factor, eIF3. We performed m6A profiling in cells subjected to heat shock stress and observed increased 5'UTR methylation after heat shock. For these studies, we used single-nucleotide resolution m6A mapping (miCLIP), which enables the detection of m6A residues separately from m6Am residues. Thus, the goal of these experiments was to identify m6A residues which are increased in the 5'UTR after heat shock stress.

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