在聚[d(A-T)]中用C4-甲基脱氧胸苷取代脱氧胸苷,可使该聚合物对Klenow和T4 DNA聚合酶的3'→5'核酸外切酶活性具有抗性。
C4-methyldeoxythymidine replacing deoxythymidine in poly[d(A-T)] renders the polymer resistant to the 3'----5' exonuclease activity of the Klenow and T4 DNA polymerases.
作者信息
Singer B
出版信息
Nucleic Acids Res. 1986 Aug 26;14(16):6735-43. doi: 10.1093/nar/14.16.6735.
Abstract
We previously reported that O4-alkyl dTTPs could replace, for short times, dTTP in polymer synthesis [Singer et al., PNAS 83, 26-32, 1986]. The reasons for such early termination of synthesis could be either proofreading or the eventual formation of weakly paired primer termini. Utilizing the known 3'----5' exonucleolytic activity of polymerases, in the absence of dNTPs, enabled us to conclude that, in contrast to the digestibility of poly[d(A-T)] which yielded the expected 3'-mononucleotides, the polymerizing enzymes did not digest O4-methyl dT or its neighbors. The presence of the resistant alpha-phosphorothionate linkage did not prevent measurable digestion of poly[d(A-T)] by the Klenow fragment. This, together with evidence that polymerization of O4-methyl dTTP is favored at low temperatures, supports the model proposed by Ollis et al. [Nature 313, 762-766, 1985] showing independent domains for the two activities in the Klenow fragment.
摘要
我们之前报道过,在聚合物合成中,O4-烷基dTTPs在短时间内可以替代dTTP [辛格等人,《美国国家科学院院刊》83, 26 - 32, 1986]。合成过早终止的原因可能是校对或者最终形成配对较弱的引物末端。在缺乏dNTPs的情况下,利用已知的聚合酶3'→5'核酸外切酶活性,使我们能够得出结论,与产生预期3'-单核苷酸的聚[d(A-T)]的可消化性不同,聚合酶不会消化O4-甲基dT或其相邻碱基。抗性α-硫代磷酸酯键的存在并不能阻止Klenow片段对聚[d(A-T)]进行可测量的消化。这一点,再加上有证据表明O4-甲基dTTP在低温下更有利于聚合,支持了奥利斯等人[《自然》313, 762 - 766, 1985]提出的模型,该模型显示Klenow片段中两种活性有独立的结构域。
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