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Abstract
The synthesis of Phosphorodiamidate Morpholino Oligonucleotides (PMOs) incorporating single triazole rings in the backbone has been achieved via Cu(I) catalyzed Azide-Alkyne cycloaddition reaction (CuAAC). The synthetic approach implemented, is convergent, involving the ligation of a 5'-azide PMO fragment to 3'-alkyne fragment both in solution and on solid support. To access the 3'-alkyne PMO fragment, we synthesized 3'-N-propargyl chlorophosphoramidate morpholino monomers for all four nucleobases. The resulting triazole-incorporated PMOs (TL-PMOs) have exhibited comparable or improved binding affinity towards complementary DNA/RNA strands compared to its regular analogs.
Supplementary materials
Title
A Convergent Click Ligation Approach to the Synthesis of Triazole-incorporated PMOs and Evaluation of Hybridization Properties
Description
Short PMO 4 to 6-mers were synthesized in solution and they were coupled by click chemistry on both solution and solid phase to get 11 to 12-mer PMOs. Short PMOs were also synthesized by an automated synthesizer. Triazole incorporation into PMO backbone shows better duplex stability with the complimentary strands of DNA or RNA.
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