含Fe-S簇的N端结构域与线粒体复制性DNA解旋酶的膜结合的意义

Implications of Membrane Binding by the Fe-S Cluster-Containing N-Terminal Domain in the Mitochondrial Replicative DNA Helicase.

作者信息

So Minyoung, Stiban Johnny, Ciesielski Grzegorz L, Hovde Stacy L, Kaguni Laurie S

机构信息

Department of Biochemistry and Molecular Biology and Center for Mitochondrial Science and Medicine, Michigan State University, East Lansing, MI, United States.

Department of Biology and Biochemistry, Birzeit University, Birzeit, Palestine.

出版信息

Front Genet. 2021 Dec 7;12:790521. doi: 10.3389/fgene.2021.790521. eCollection 2021.

DOI:10.3389/fgene.2021.790521

PMID:34950192

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8688847/

Abstract

Recent evidence suggests that iron-sulfur clusters (ISCs) in DNA replicative proteins sense DNA-mediated charge transfer to modulate nuclear DNA replication. In the mitochondrial DNA replisome, only the replicative DNA helicase (mtDNA helicase) from has been shown to contain an ISC in its N-terminal, primase-like domain (NTD). In this report, we confirm the presence of the ISC and demonstrate the importance of a metal cofactor in the structural stability of the mtDNA helicase. Further, we show that the NTD also serves a role in membrane binding. We demonstrate that the NTD binds to asolectin liposomes, which mimic phospholipid membranes, through electrostatic interactions. Notably, membrane binding is more specific with increasing cardiolipin content, which is characteristically high in the mitochondrial inner membrane (MIM). We suggest that the N-terminal domain of the mtDNA helicase interacts with the MIM to recruit mtDNA and initiate mtDNA replication. Furthermore, NUBPL, the known ISC donor for respiratory complex I and a putative donor for mtDNA helicase, was identified as a peripheral membrane protein that is likely to execute membrane-mediated ISC delivery to its target proteins.

摘要

最近的证据表明，DNA复制蛋白中的铁硫簇（ISC）可感知DNA介导的电荷转移，从而调节核DNA复制。在线粒体DNA复制体中，仅来自[具体来源未明确]的复制性DNA解旋酶（线粒体DNA解旋酶）在其N端类似引发酶的结构域（NTD）中被证明含有一个ISC。在本报告中，我们证实了ISC的存在，并证明了一种金属辅因子在线粒体DNA解旋酶结构稳定性中的重要性。此外，我们表明NTD在膜结合中也发挥作用。我们证明NTD通过静电相互作用与模拟磷脂膜的大豆卵磷脂脂质体结合。值得注意的是，随着心磷脂含量的增加，膜结合更具特异性，而心磷脂在线粒体内膜（MIM）中的含量通常很高。我们认为线粒体DNA解旋酶的N端结构域与MIM相互作用，以募集线粒体DNA并启动线粒体DNA复制。此外，NUBPL，已知的呼吸复合体I的ISC供体以及线粒体DNA解旋酶的假定供体，被鉴定为一种外周膜蛋白，它可能执行膜介导的ISC向其靶蛋白的传递。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7883/8688847/2ade6c8a5f01/fgene-12-790521-g001.jpg

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含Fe-S簇的N端结构域与线粒体复制性DNA解旋酶的膜结合的意义

Implications of Membrane Binding by the Fe-S Cluster-Containing N-Terminal Domain in the Mitochondrial Replicative DNA Helicase.

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