93134-61-3Relevant academic research and scientific papers
Solution-phase synthesis of branched DNA hybrids based on dimer phosphoramidites and phenolic or nucleosidic cores
Griesser, Helmut,Tolev, Mariyan,Singh, Arunoday,Sabirov, Thomas,Gerlach, Claudia,Richert, Clemens
, p. 2703 - 2717 (2012/06/01)
Branched oligonucleotides with CG zippers as DNA arms assemble into materials from micromolar solutions. Their synthesis has been complicated by low yields in solid-phase syntheses. Here we present a solution-phase synthesis based on phosphoramidites of dimers and phenolic cores that produces six-arm or four-arm hybrids in up to 61% yield. On the level of hybrids, only the final product has to be purified by precipitation or chromatography. A total of five different hybrids were prepared via the solution-phase route, including new hybrid (TCG)4TTPA with a tetrakis(triazolylphenyl)adamantane core and trimer DNA arms. The new method is more readily scaled up than solid-phase syntheses, uses no more than 4 equiv of phosphoramidite per phenolic alcohol, and provides routine access to novel materials that assemble via predictable base-pairing interactions.
Improvements in Oligodeoxyribonucleotide Synthesis: Methyl N,N-Dialkylphosphoramidite Dimer Units for Solid Support Phosphite Methodology
Kumar, G.,Poonian, M.S.
, p. 4905 - 4912 (2007/10/02)
Two procedures for the synthesis of methyl N,N-dialkylphosphoramidite dinucleotides (dimer units) compatible with the current solid support phosphite methodology of oligodeoxynucleotide synthesis are described for the first time.In the first procedure a c
