核因子I通过提高起始前复合物的稳定性来增强腺病毒DNA复制。

Nuclear factor I enhances adenovirus DNA replication by increasing the stability of a preinitiation complex.

作者信息

Mul Y M, Van der Vliet P C

机构信息

Laboratory for Physiological Chemistry, University of Utrecht, The Netherlands.

出版信息

EMBO J. 1992 Feb;11(2):751-60. doi: 10.1002/j.1460-2075.1992.tb05108.x.

DOI:10.1002/j.1460-2075.1992.tb05108.x

PMID:1537346

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC556508/

Abstract

Nuclear factor I (NFI) or its isolated DNA-binding domain (NFI-BD) enhances initiation of adenovirus DNA replication up to 50-fold at low concentrations of the precursor terminal protein-DNA polymerase (pTP-pol) complex. Both in solution and when bound to DNA, NFI-BD can form a complex with pTP-pol. To investigate the mechanism of enhancement by NFI, we determined the stability of a functional preinitiation complex formed in vitro between pTP-pol and the origin. Challenge experiments with a distinguishable template containing an identical origin revealed that in the absence of NFI, this preinitiation complex was very sensitive to competition for pTP-pol. Addition of NFI-BD increased the half-life of the complex at least 10-fold and led to the formation of a template-committed preinitiation complex. In agreement with this, binding of pTP-pol to origin DNA in band-shift assays was enhanced by NFI. By DNase I footprinting we show that the specificity of binding as well as induction of structural changes in origin DNA by pTP-pol are increased by NFI. These results indicate that NFI, by binding and positioning pTP-pol, stabilizes the complex between pTP-pol and the core origin, and thus enhances initiation of DNA replication.

摘要

核因子I（NFI）或其分离的DNA结合结构域（NFI-BD）在低浓度的前体末端蛋白-DNA聚合酶（pTP-pol）复合物存在时，可将腺病毒DNA复制的起始增强多达50倍。无论是在溶液中还是与DNA结合时，NFI-BD都能与pTP-pol形成复合物。为了研究NFI增强作用的机制，我们确定了体外在pTP-pol与起始位点之间形成的功能性预起始复合物的稳定性。用含有相同起始位点的可区分模板进行的挑战实验表明，在没有NFI的情况下，这种预起始复合物对pTP-pol的竞争非常敏感。添加NFI-BD可使复合物的半衰期至少延长10倍，并导致形成模板特异性的预起始复合物。与此一致的是，在凝胶迁移实验中，NFI增强了pTP-pol与起始位点DNA的结合。通过DNA酶I足迹实验，我们表明NFI增加了pTP-pol结合的特异性以及起始位点DNA结构变化的诱导。这些结果表明，NFI通过结合并定位pTP-pol，稳定了pTP-pol与核心起始位点之间的复合物，从而增强了DNA复制的起始。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/346b/556508/ccd068e892f4/emboj00087-0367-a.jpg

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核因子I通过提高起始前复合物的稳定性来增强腺病毒DNA复制。

Nuclear factor I enhances adenovirus DNA replication by increasing the stability of a preinitiation complex.

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