Reusable solid-phase supports for oligonucleotides and antisense therapeuticsElectronic supplementary information (ESI) available: CGE data for octathymidine phosphodiester sequences on supports P1â€'5, P7, P9, and P11â€'13 PAGE data for phosphorothioate products, dimethoxytrityl analysis and UV measurements on supports P1â€'7, P9 and P15, step listing for ABI394 DNA synthesizer and CGE and HPLC data for phosporothioate syntheses on support P3. See http://www.rsc.org/suppdata/p1/b1/b105089n

Autor: Richard T. Pon, Shuyuan Yu, Zhiqiang Guo, Yogesh S. Sanghvi, Ranjit R. Deshmukh
Rok vydání: 2001
Předmět:
Zdroj: Journal of the Chemical Society, Perkin Transactions 1. :2638-2643
ISSN: 1364-5463
1472-7781
DOI: 10.1039/b105089n
Popis: A general method for oligonucleotide synthesis on reusable solid-phase supports has been developed which will significantly lower the cost of large-scale synthesis. It consists of five steps: 1, nucleoside attachment to an hydroxy derivatized support through a Q-linker (hydroquinone-O,O′-diacetic acid) linker arm; 2, chloro-acetylation of unreacted surface groups; 3, conventional phosphodiester or phosphorothioate oligonucleotide synthesis; 4, cleavage from the support with aqueous or anhydrous ammonia; and 5, support regeneration with methanolic potassium carbonate. The recycling process is fast, fully automatable, and does not require removal of the support from the synthesis column. Fifteen solid-phase supports were evaluated with glycerol-CPG providing the best results. Consecutive syntheses of ISIS 2302, a dGCCCAAGCTGGCATCCGTCA phosphorothioate sequence, on the same synthesis column were performed. A glycerol-CPG synthesis column was satisfactorily used six consecutive times when NH4OH was the cleavage reagent. However, anhydrous NH3 allowed twelve consecutive syntheses without any deterioration in support loading, product quality, or amount of product produced. An improved method for preparing the essential nucleoside-3′-hemiesters of the Q-Linker and an unexpectedly slower rate of cleavage for phosphorothioate DNA vs. phosphodiester DNA are also described.
Databáze: OpenAIRE
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