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5型腺病毒DNA结合蛋白刺激DNA聚合酶与复制起点的结合。

Adenovirus type 5 DNA binding protein stimulates binding of DNA polymerase to the replication origin.

作者信息

van Breukelen Bas, Brenkman Arjan B, Holthuizen P Elly, van der Vliet Peter C

机构信息

Department of Physiological Chemistry and Centre for Biomedical Genetics, University Medical Center Utrecht, The Netherlands.

出版信息

J Virol. 2003 Jan;77(2):915-22. doi: 10.1128/jvi.77.2.915-922.2003.

DOI:10.1128/jvi.77.2.915-922.2003
PMID:12502807
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC140850/
Abstract

The adenovirus (Ad) DNA-binding protein (DBP) is essential for the elongation phase of Ad DNA replication by unwinding the template in an ATP-independent fashion, employing its capacity to form multimers. DBP also enhances the rate of initiation, with the highest levels obtained at low concentrations of Ad DNA polymerase (Pol). Here, we show that stimulation of initiation depends on the template conformation. Maximal stimulation, up to 15-fold, is observed on double-stranded or viral TP-containing origins. The stimulation is reduced on partially single-stranded origins and DBP does not enhance initiation any more once the origin is completely unwound. This suggests a role for DBP in origin unwinding that is comparable to its unwinding capacity during elongation. However, mutant DBP proteins defective in unwinding and elongation can still enhance initiation on ds templates. DBP also stimulates the binding of nuclear factor I (NFI) to the origin and lowers the K(m) for coupling of the first nucleotide to the precursor terminal protein by Pol. Mobility shift experiments reveal that DBP stimulates the binding of Pol on double-stranded origin and nonorigin DNA but not on single-stranded DNA. This effect is specific for DBP and is also seen with other DNA Pols. Our results suggest that, rather than by origin unwinding, DBP enhances initiation by modulating the origin conformation such that DNA Pol can bind more efficiently.

摘要

腺病毒(Ad)DNA结合蛋白(DBP)对于Ad DNA复制的延伸阶段至关重要,它通过以不依赖ATP的方式解开模板,利用其形成多聚体的能力来实现这一点。DBP还能提高起始速率,在低浓度的Ad DNA聚合酶(Pol)时可达到最高水平。在此,我们表明起始刺激取决于模板构象。在双链或含病毒TP的起始位点上观察到高达15倍的最大刺激。在部分单链起始位点上刺激作用降低,一旦起始位点完全解开,DBP就不再增强起始作用。这表明DBP在起始位点解旋中发挥的作用与其在延伸过程中的解旋能力相当。然而,在解旋和延伸方面有缺陷的突变DBP蛋白仍能增强双链模板上的起始作用。DBP还能刺激核因子I(NFI)与起始位点的结合,并降低Pol将第一个核苷酸与前体末端蛋白偶联的米氏常数(Km)。迁移率变动实验表明,DBP能刺激Pol与双链起始位点和非起始位点DNA的结合,但不能刺激与单链DNA的结合。这种效应是DBP特有的,其他DNA聚合酶也有类似现象。我们的结果表明,DBP增强起始作用并非通过起始位点解旋,而是通过调节起始位点构象,使DNA Pol能更有效地结合。

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