DNA代谢酶对海航和1,5-无氢己醇核苷酸的识别

Karen Vastmans, Jef Rozenski, Arthur Van Aerschot, Piet Herdewijn
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引用次数: 10

摘要

己醇核酸(HNA)及其1,5-无氢己醇三磷酸构建块被几种DNA代谢酶识别的能力进行了评估。发现RNA聚合酶可以识别腺嘌呤类似物的三磷酸。然而,在应用的实验条件下,只有最多三个连续的构建块类似物的结合是可能的。末端转移酶更成功地延长了DNA引物,最多有15个1,5-无氢己醇嘌呤核苷酸。此外,观察到腺苷的1,5-无hydroaltritol triphosphate类似物是末端转移酶的差底物,并且HNA不能作为该酶的引物。同样,海航也没有作为限制性内切酶、连接酶或甲基化酶的模板。
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Recognition of HNA and 1,5-anhydrohexitol nucleotides by DNA metabolizing enzymes

Hexitol nucleic acids (HNA) as well as their 1,5-anhydrohexitol triphosphate building blocks were evaluated for their ability to be recognized by several DNA metabolizing enzymes. It was found that RNA polymerases can recognize the triphosphate of the adenine analogue. However, only the incorporation of a maximum of three consecutive building block analogues was possible under the applied experimental conditions. Terminal transferase was more successful succeeding in the elongation of a DNA primer with a maximum of 15 1,5-anhydrohexitol purine nucleotides. Furthermore, it was observed that the 1,5-anhydroaltritol triphosphate analogue of adenosine was a poor substrate for terminal transferase and that HNA could not act as a primer for this enzyme. Likewise, HNA did not function as a template for restriction enzymes, ligases or methylases.

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