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C10orf2 编码的人类线粒体 DNA 解旋酶的疾病变异体可改变蛋白稳定性、核苷酸水解和解旋酶活性。

Disease variants of the human mitochondrial DNA helicase encoded by C10orf2 differentially alter protein stability, nucleotide hydrolysis, and helicase activity.

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. 2010 Sep 24;285(39):29690-702. doi: 10.1074/jbc.M110.151795. Epub 2010 Jul 20.

DOI:10.1074/jbc.M110.151795
PMID:20659899
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2943296/
Abstract

Missense mutations in the human C10orf2 gene, encoding the mitochondrial DNA (mtDNA) helicase, co-segregate with mitochondrial diseases such as adult-onset progressive external ophthalmoplegia, hepatocerebral syndrome with mtDNA depletion syndrome, and infantile-onset spinocerebellar ataxia. To understand the biochemical consequences of C10orf2 mutations, we overproduced wild type and 20 mutant forms of human mtDNA helicase in Escherichia coli and developed novel schemes to purify the recombinant enzymes to near homogeneity. A combination of molecular crowding, non-ionic detergents, Mg(2+) ions, and elevated ionic strength was required to combat insolubility and intrinsic instability of certain mutant variants. A systematic biochemical assessment of the enzymes included analysis of DNA binding affinity, DNA helicase activity, the kinetics of nucleotide hydrolysis, and estimates of thermal stability. In contrast to other studies, we found that all 20 mutant variants retain helicase function under optimized in vitro conditions despite partial reductions in DNA binding affinity, nucleotide hydrolysis, or thermal stability for some mutants. Such partial defects are consistent with the delayed presentation of mitochondrial diseases associated with mutation of C10orf2.

摘要

人类 C10orf2 基因(编码线粒体 DNA (mtDNA)解旋酶)中的错义突变与线粒体疾病如成人起病的进行性眼外肌麻痹、肝脑综合征伴 mtDNA 耗竭综合征和婴儿起病的脊髓小脑共济失调等共分离。为了了解 C10orf2 突变的生化后果,我们在大肠杆菌中过量表达了野生型和 20 种突变型人 mtDNA 解旋酶,并开发了新的方案来将重组酶纯化至近乎均一。需要结合分子拥挤、非离子型去污剂、Mg2+离子和提高离子强度来对抗某些突变体变体的不溶性和固有不稳定性。对这些酶的系统生化评估包括 DNA 结合亲和力分析、DNA 解旋酶活性、核苷酸水解动力学以及热稳定性估计。与其他研究不同,我们发现,尽管某些突变体的 DNA 结合亲和力、核苷酸水解或热稳定性部分降低,但所有 20 种突变体在优化的体外条件下仍保留解旋酶功能。这种部分缺陷与 C10orf2 突变相关的线粒体疾病的延迟表现一致。

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