Graduate School of Engineering, Gunma University, 1-5-1 Tenjin-cho, Kiryu, Gunma 376-8515, Japan.
Molecules. 2010 Nov 12;15(11):8229-40. doi: 10.3390/molecules15118229.
Recently, KOD and its related DNA polymerases have been used for preparing various modified nucleic acids, including not only base-modified nucleic acids, but also sugar-modified ones, such as bridged/locked nucleic acid (BNA/LNA) which would be promising candidates for nucleic acid drugs. However, thus far, reasons for the effectiveness of KOD DNA polymerase for such purposes have not been clearly elucidated. Therefore, using mutated KOD DNA polymerases, we studied here their catalytic properties upon enzymatic incorporation of nucleotide analogues with base/sugar modifications. Experimental data indicate that their characteristic kinetic properties enabled incorporation of various modified nucleotides. Among those KOD mutants, one achieved efficient successive incorporation of bridged nucleotides with a 2'-ONHCH₂CH₂-4' linkage. In this study, the characteristic kinetic properties of KOD DNA polymerase for modified nucleoside triphosphates were shown, and the effectiveness of genetic engineering in improvement of the enzyme for modified nucleotide polymerization has been demonstrated.
最近,KOD 及其相关的 DNA 聚合酶已被用于制备各种修饰的核酸,包括不仅碱基修饰的核酸,而且糖修饰的核酸,如桥接/锁定核酸(BNA/LNA),其将是核酸药物的有希望的候选物。然而,迄今为止,对于 KOD DNA 聚合酶用于此类目的的有效性的原因尚未清楚阐明。因此,使用突变的 KOD DNA 聚合酶,我们在这里研究了它们在酶促掺入具有碱基/糖修饰的核苷酸类似物时的催化特性。实验数据表明,它们的特征动力学特性能够掺入各种修饰的核苷酸。在这些 KOD 突变体中,有一种实现了带有 2'-ONHCH₂CH₂-4'键的桥接核苷酸的有效连续掺入。在这项研究中,展示了 KOD DNA 聚合酶对修饰的核苷三磷酸的特征动力学特性,并且证明了遗传工程在改善酶用于修饰的核苷酸聚合方面的有效性。