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人类线粒体DNA聚合酶拇指亚结构域中的疾病突变会导致线粒体DNA复制出现严重缺陷。

Disease mutations in the human mitochondrial DNA polymerase thumb subdomain impart severe defects in mitochondrial DNA replication.

作者信息

Kasiviswanathan Rajesh, Longley Matthew J, Chan Sherine S L, Copeland William C

机构信息

Laboratory of Molecular Genetics, NIEHS, National Institutes of Health, Research Triangle Park, North Carolina 27709, USA.

出版信息

J Biol Chem. 2009 Jul 17;284(29):19501-10. doi: 10.1074/jbc.M109.011940. Epub 2009 May 28.

DOI:10.1074/jbc.M109.011940
PMID:19478085
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2740576/
Abstract

Forty-five different point mutations in POLG, the gene encoding the catalytic subunit of the human mitochondrial DNA polymerase (pol gamma), cause the early onset mitochondrial DNA depletion disorder, Alpers syndrome. Sequence analysis of the C-terminal polymerase region of pol gamma revealed a cluster of four Alpers mutations at highly conserved residues in the thumb subdomain (G848S, c.2542g-->a; T851A, c.2551a-->g; R852C, c.2554c-->t; R853Q, c.2558g-->a) and two Alpers mutations at less conserved positions in the adjacent palm subdomain (Q879H, c.2637g-->t and T885S, c.2653a-->t). Biochemical characterization of purified, recombinant forms of pol gamma revealed that Alpers mutations in the thumb subdomain reduced polymerase activity more than 99% relative to the wild-type enzyme, whereas the palm subdomain mutations retained 50-70% wild-type polymerase activity. All six mutant enzymes retained physical and functional interaction with the pol gamma accessory subunit (p55), and none of the six mutants exhibited defects in misinsertion fidelity in vitro. However, differential DNA binding by these mutants suggests a possible orientation of the DNA with respect to the polymerase during catalysis. To our knowledge this study represents the first structure-function analysis of the thumb subdomain in pol gamma and examines the consequences of mitochondrial disease mutations in this region.

摘要

编码人类线粒体DNA聚合酶(polγ)催化亚基的基因POLG中的45种不同点突变,会导致早发性线粒体DNA耗竭障碍——阿尔珀斯综合征。对polγ的C端聚合酶区域进行序列分析发现,在拇指亚结构域的高度保守残基处有一组四个阿尔珀斯突变(G848S,c.2542g→a;T851A,c.2551a→g;R852C,c.2554c→t;R853Q,c.2558g→a),以及在相邻手掌亚结构域中较不保守位置的两个阿尔珀斯突变(Q879H,c.2637g→t和T885S,c.2653a→t)。对纯化的重组形式的polγ进行生化特性分析发现,拇指亚结构域中的阿尔珀斯突变使聚合酶活性相对于野生型酶降低了99%以上,而手掌亚结构域突变保留了50 - 70%的野生型聚合酶活性。所有六种突变酶都与polγ辅助亚基(p55)保持物理和功能相互作用,并且这六种突变体在体外均未表现出错配保真度缺陷。然而,这些突变体的差异DNA结合表明,在催化过程中DNA相对于聚合酶可能存在一种取向。据我们所知,这项研究代表了对polγ中拇指亚结构域的首次结构 - 功能分析,并研究了该区域线粒体疾病突变的后果。

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