Syntheses of Base-Labile Pseudo-Complementary SNA and l- a TNA Phosphoramidite Monomers.
Fuminori SatoYukiko KamiyaHiroyuki AsanumaPublished in: The Journal of organic chemistry (2023)
We previously synthesized phosphoramidite monomers bearing Boc-protected 2,6-diaminopurine (D) and 2-methyl-4-methoxybenzyl-protected 2-thiouracil (sU) as building blocks for the preparation of pseudo-complementary serinol nucleic acids (SNAs). Since SNA is stable under acidic conditions, an acid-deprotection step could be inserted into the work-up. However, as the 4,4'-dimethoxytrityl group was concurrently removed at this step, purification of SNA by reversed-phase HPLC was difficult. Here, we report the syntheses of SNA and acyclic l-threoninol nucleic acid (l- a TNA) phosphoramidite monomers with bis(phenoxyacetyl)-protected D and 4-acetoxybenzyl-protected sU, both of which can be deprotected under mild basic conditions. Using these monomers, we prepared pseudo-complementary SNA and l- a TNA in high yield using conventional oligonucleotide synthesis protocols. These monomers can be used for large-scale syntheses of SNAs and l- a TNAs.