Abstract
More than 150 RNA chemical modifications have been identified to date. Among them, methylation of adenosine at the N-6 position (m6A) is crucial for RNA metabolism, stability and other important biological events. In particular, this is the most abundant mark found in mRNA in mammalian cells. The presence of a methyl group at the N-1 position of adenosine (m1A) is mostly found in ncRNA and mRNA and is mainly responsible for stability and translation fidelity. These modifications are installed by m6A and m1A RNA methyltransferases (RNA MTases), respectively. In human, deregulation of m6A RNA MTases activity is associated with many diseases including cancer. To date, the molecular mechanism involved in the methyl transfer, in particular substrate recognition, remains unclear. We report the synthesis of new SAM-adenosine conjugates containing a triazole linker branched at the N-1 or N-6 position of adenosine. Our methodology does not require protecting groups for the functionalization of adenosine at these two positions. The molecules described here were designed as potential bisubstrate analogues for m6A and m1A RNA MTases that could be further employed for structural studies. This is the first report of compounds mimicking the transition state of the methylation reaction catalyzed by m1A RNA MTases.
Highlights
Among the numerous post-transcriptional modifications of RNA identified to date, methylation is currently one of the most studied [1]
We recently described the synthesis of SAM-adenosine conjugates as first we recently described the synthesis of SAM-adenosine conjugates as first transition
Using tetrabutylammonium hydroxide (TBAOH) instead of TBABr led to the formation of adenosines 2a and 3a in 57 and 28% yield with total conversion of the starting material (Scheme 2)
Summary
Among the numerous post-transcriptional modifications of RNA identified to date, methylation is currently one of the most studied [1]. This modification can occur at the terminal cap of RNAs or at internal position, and the methyl group is found on nucleic acid bases or at the 20 position of the ribose units. N6 -Methyladenosine (m6 A) is an abundant reversible modification found in all types of RNA, involved in the regulation of RNA metabolism, protein expression or RNA-protein recognition [4,5,6,7]. The modification at the N-1 site (m1 A) is reversible and linked to the structural stability and the functions of RNAs [11,12]
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