913697-72-0Relevant academic research and scientific papers
Synthesis of oligodeoxynucleotides using fully protected Deoxynucleoside 3c-Phosphoramidite building blocks and base recognition of Oligodeoxynucleotides incorporating N3-Cyano-Ethylthymine
Tsunoda, Hirosuke,Kudo, Tomomi,Ohkubo, Akihiro,Seio, Kohji,Sekine, Mitsuo
experimental part, p. 7509 - 7531 (2011/02/28)
Oligodeoxynucleotide (ODN) synthesis, which avoids the formation of side products, is of great importance to biochemistry-based technology development. One side reaction of ODN synthesis is the cyanoethylation of the nucleobases. We suppressed this reaction by synthesizing ODNs using fully protected deoxynucleoside 3c-phosphoramidite building blocks, where the remaining reactive nucleobase residues were completely protected with acyl-, diacyl-, and acyl-oxyethylene-type groups. The detailed analysis of cyanoethylation at the nucleobase site showed that N3-protection of the thymine base efficiently suppressed the Michael addition of acrylonitrile. An ODN incorporating N3-cyanoethylthymine was synthesized using the phosphoramidite method, and primer extension reactions involving this ODN template were examined. As a result, the modified thymine produced has been proven to serve as a chain terminator.
Simple and efficient solution-phase synthesis of oligonucleotides using extractive work-up
De Koning, Martijn C.,Ghisaidoobe, Amar B. T.,Duynstee, Howard I.,Ten Kortenaar, Paul B. W.,Filippov, Dmitri V.,Van Der Marel, Gijs A.
, p. 1238 - 1245 (2012/12/23)
A solution-phase synthesis protocol amenable to scale-up was developed for the preparation of oligonucleotides employing phosphoramidite chemistry and DMTr/iBu/Bz-protected monomers. Isolation of intermediates was accomplished by means of extractions as the only purification tool. The potential of the method is demonstrated with the synthesis of a hexameric DNA fragment in high yield and purity.
