Ma M Y, Dignam J C, Fong G W, Li L, Gray S H, Jacob-Samuel B, George S T
Innovir Laboratories, Inc., 510 East 73rd Street, New York, NY 10021, USA.
Nucleic Acids Res. 1997 Sep 15;25(18):3590-3. doi: 10.1093/nar/25.18.3590.
3-ethoxy-1,2,4-dithiazoline-5-one (EDITH) was recently introduced as an efficient sulfurizing reagent for solid-phase oligonucleotide synthesis. The successful syntheses were performed using standard base protecting groups (i.e. benzoyl for A and C, isobutyryl for G), which required deprotection in concentrated ammonium hydroxide at 55 degrees C for 15-18 h. We have explored the possibility of using EDITH in combination with fast deprotection chemistry(e.g. Expedite Chemistry using tert -butylphenoxy acetyl as a base protecting group). Surprisingly, poor synthesis performance was observed when syntheses were conducted with EDITH, Expedite Chemistry and standard synthesis cycle (i.e. Coupling-Thio-Cap). Potential G modification seemed to be the source of incompatibility since sequences containing no G or carrying isobutyryl- protected G residues could be synthesized with high efficiency. However, the deleterious G modification can be readily eliminated by inserting a capping step before the sulfurization reaction. Oligomers prepared with the Coupling-Cap-Thio-Cap cycle contained few phosphodiester contaminants as measured by31P-NMR, anion-exchange HPLC and MALDI-TOF mass spectrometry. In addition to reducing deprotection time, this new combination also provides a mild method for the preparation of certain phosphorothioate oligomers that may be sensitive to prolonged ammonia treatment (e.g. thioated RNAs).
3-乙氧基-1,2,4-二噻唑啉-5-酮(EDITH)最近被引入作为用于固相寡核苷酸合成的高效硫化试剂。成功的合成是使用标准碱基保护基团(即用于A和C的苯甲酰基,用于G的异丁酰基)进行的,这需要在55℃的浓氢氧化铵中脱保护15 - 18小时。我们探索了将EDITH与快速脱保护化学方法(例如使用叔丁基苯氧基乙酰作为碱基保护基团的加速化学方法)结合使用的可能性。令人惊讶的是,当使用EDITH、加速化学方法和标准合成循环(即偶联-硫代-封端)进行合成时,观察到合成性能较差。潜在的G修饰似乎是不相容性的来源,因为不含G或携带异丁酰基保护的G残基的序列可以高效合成。然而,通过在硫化反应之前插入一个封端步骤,可以很容易地消除有害的G修饰。通过31P-NMR、阴离子交换HPLC和基质辅助激光解吸电离飞行时间质谱法测量,用偶联-封端-硫代-封端循环制备的寡聚物含有很少的磷酸二酯污染物。除了减少脱保护时间外,这种新组合还提供了一种温和的方法来制备某些可能对长时间氨处理敏感的硫代磷酸酯寡聚物(例如硫代化RNA)。