Ponamarev Mikhail V, Longley Matthew J, Nguyen Dinh, Kunkel Thomas A, Copeland William C
Laboratory of Molecular Genetics, NIEHS, National Institutes of Health, Research Triangle Park, North Carolina 27709, USA.
J Biol Chem. 2002 May 3;277(18):15225-8. doi: 10.1074/jbc.C200100200. Epub 2002 Mar 15.
Progressive external ophthalmoplegia (PEO) is a heritable mitochondrial disorder characterized by the accumulation of multiple point mutations and large deletions in mtDNA. Autosomal dominant PEO was recently shown to co-segregate with a heterozygous Y955C mutation in the human gene encoding the sole mitochondrial DNA polymerase, DNA polymerase gamma (pol gamma). Since Tyr-955 is a highly conserved residue critical for nucleotide recognition among family A DNA polymerases, we analyzed the effects of the Y955C mutation on the kinetics and fidelity of DNA synthesis by the purified human mutant polymerase in complex with its accessory subunit. The Y955C enzyme retains a wild-type catalytic rate (k(cat)) but suffers a 45-fold decrease in apparent binding affinity for the incoming nucleoside triphosphate (K(m)). The Y955C derivative is 2-fold less accurate for base pair substitutions than wild-type pol gamma despite the action of intrinsic exonucleolytic proofreading. The full mutator effect of the Y955C substitution was revealed by genetic inactivation of the exonuclease, and error rates for certain mismatches were elevated by 10-100-fold. The error-prone DNA synthesis observed for the Y955C pol gamma is consistent with the accumulation of mtDNA mutations in patients with PEO.
进行性眼外肌麻痹(PEO)是一种遗传性线粒体疾病,其特征是线粒体DNA(mtDNA)中积累多个点突变和大片段缺失。最近发现,常染色体显性PEO与编码唯一线粒体DNA聚合酶——DNA聚合酶γ(polγ)的人类基因中的杂合Y955C突变共分离。由于酪氨酸955是A家族DNA聚合酶中对核苷酸识别至关重要的高度保守残基,我们分析了Y955C突变对纯化的人类突变聚合酶与其辅助亚基复合物DNA合成动力学和保真度的影响。Y955C酶保留了野生型催化速率(k(cat)),但对进入的核苷三磷酸(K(m))的表观结合亲和力降低了45倍。尽管有内在的核酸外切酶校对作用,Y955C衍生物在碱基对替换方面的准确性仍比野生型polγ低2倍。通过核酸外切酶的基因失活揭示了Y955C替代的完全诱变效应,某些错配的错误率提高了10 - 100倍。在Y955C polγ中观察到的易出错DNA合成与PEO患者mtDNA突变的积累一致。
