Publication | Closed Access
Alternative Syntheses of (<i>S</i>)-cEt-BNA: A Key Constrained Nucleoside Component of Bioactive Antisense Gapmer Sequences
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Citations
22
References
2014
Year
Nucleic Acid ChemistryBioorganic ChemistryEngineeringBiochemistryNatural SciencesAlternative SynthesesOligonucleotideMolecular BiologySynthetic BiologyConstrained 5-Methyluracil NucleosideOrganic ChemistryShorter SynthesisAntisense TherapyHeterocycle ChemistryChemical BiologyIntramolecular Cyclization
Approaches to the synthesis of the constrained 5-methyluracil nucleoside (S)-cEt-BNA, a key "gapmer" unit in a number of biologically relevant antisense oligonucleotides, are described using 5-methyluridine as starting material. In the shorter synthesis, a nine-step linear sequence afforded a O-protected (S)-cEt-BNA consisting of a [2.2.1]dioxabicycloheptane core in 7% overall yield. A competing reaction in an intramolecular cyclization of a tosylate led to a bicyclic oxetane.
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