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1
Assembly and dynamics of Gp59-Gp32-single-stranded DNA (ssDNA), a DNA helicase loading complex required for recombination-dependent replication in bacteriophage T4.gp59-gp32-单链 DNA(ssDNA)组装和动力学,一种 DNA 解旋酶加载复合物,是噬菌体 T4 中依赖重组的复制所必需的。
J Biol Chem. 2012 Jun 1;287(23):19070-81. doi: 10.1074/jbc.M112.343830. Epub 2012 Apr 12.
2
Models for the binary complex of bacteriophage T4 gp59 helicase loading protein: gp32 single-stranded DNA-BINDING protein and ternary complex with pseudo-Y junction DNA.T4 噬菌体 gp59 解旋酶加载蛋白与 gp32 单链 DNA 结合蛋白二元复合物模型:与伪 Y 形 DNA 的三元复合物。
J Biol Chem. 2012 May 25;287(22):18608-17. doi: 10.1074/jbc.M111.333476. Epub 2012 Apr 5.
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Coordination of DNA replication and recombination activities in the maintenance of genome stability.协调 DNA 复制和重组活动以维持基因组稳定性。
J Cell Biochem. 2011 Oct;112(10):2672-82. doi: 10.1002/jcb.23211.
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Initiation of bacteriophage T4 DNA replication and replication fork dynamics: a review in the Virology Journal series on bacteriophage T4 and its relatives.T4 噬菌体 DNA 复制的起始和复制叉动力学:在噬菌体 T4 及其相关病毒系列的病毒学期刊上的综述。
Virol J. 2010 Dec 3;7:358. doi: 10.1186/1743-422X-7-358.
5
Assembly and dynamics of the bacteriophage T4 homologous recombination machinery.噬菌体 T4 同源重组机制的组装与动态。
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DnaA, ORC, and Cdc6: similarity beyond the domains of life and diversity.DnaA、ORC 和 Cdc6:生命领域之外的相似性和多样性。
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Dynamics of bacteriophage T4 presynaptic filament assembly from extrinsic fluorescence measurements of Gp32-single-stranded DNA interactions.通过对Gp32与单链DNA相互作用的外在荧光测量研究噬菌体T4突触前细丝组装的动力学
J Biol Chem. 2006 Sep 8;281(36):26308-19. doi: 10.1074/jbc.M604349200. Epub 2006 Jul 7.
9
Site-directed mutations of T4 helicase loading protein (gp59) reveal multiple modes of DNA polymerase inhibition and the mechanism of unlocking by gp41 helicase.T4解旋酶装载蛋白(gp59)的定点突变揭示了DNA聚合酶抑制的多种模式以及gp41解旋酶的解锁机制。
J Biol Chem. 2006 Mar 31;281(13):8697-706. doi: 10.1074/jbc.M512185200. Epub 2006 Jan 9.
10
Interaction between the T4 helicase loading protein (gp59) and the DNA polymerase (gp43): unlocking of the gp59-gp43-DNA complex to initiate assembly of a fully functional replisome.T4解旋酶加载蛋白(gp59)与DNA聚合酶(gp43)之间的相互作用:gp59-gp43-DNA复合物的解锁以启动全功能复制体的组装。
Biochemistry. 2005 May 31;44(21):7747-56. doi: 10.1021/bi047296w.

噬菌体 T4 中耦合的 DNA 复制和重组系统中解旋酶加载的控制。

Control of helicase loading in the coupled DNA replication and recombination systems of bacteriophage T4.

机构信息

From the Department of Biochemistry, University of Vermont College of Medicine, Burlington, Vermont 05405.

出版信息

J Biol Chem. 2014 Jan 31;289(5):3040-54. doi: 10.1074/jbc.M113.505842. Epub 2013 Dec 14.

DOI:10.1074/jbc.M113.505842
PMID:24338568
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3908434/
Abstract

The Gp59 protein of bacteriophage T4 promotes DNA replication by loading the replicative helicase, Gp41, onto replication forks and recombination intermediates. Gp59 also blocks DNA synthesis by Gp43 polymerase until Gp41 is loaded, ensuring that synthesis is tightly coupled to unwinding. The distinct polymerase blocking and helicase loading activities of Gp59 likely involve different binding interactions with DNA and protein partners. Here, we investigate how interactions of Gp59 with DNA and Gp32, the T4 single-stranded DNA (ssDNA)-binding protein, are related to these activities. A previously characterized mutant, Gp59-I87A, exhibits markedly reduced affinity for ssDNA and pseudo-fork DNA substrates. We demonstrate that on Gp32-covered ssDNA, the DNA binding defect of Gp59-I87A is not detrimental to helicase loading and translocation. In contrast, on pseudo-fork DNA the I87A mutation is detrimental to helicase loading and unwinding in the presence or absence of Gp32. Other results indicate that Gp32 binding to lagging strand ssDNA relieves the blockage of Gp43 polymerase activity by Gp59, whereas the inhibition of Gp43 exonuclease activity is maintained. Our findings suggest that Gp59-Gp32 and Gp59-DNA interactions perform separate but complementary roles in T4 DNA metabolism; Gp59-Gp32 interactions are needed to load Gp41 onto D-loops, and other nucleoprotein structures containing clusters of Gp32. Gp59-DNA interactions are needed to load Gp41 onto nascent or collapsed replication forks lacking clusters of Gp32 and to coordinate bidirectional replication from T4 origins. The dual functionalities of Gp59 allow it to promote the initiation or re-start of DNA replication from a wide variety of recombination and replication intermediates.

摘要

噬菌体 T4 的 Gp59 蛋白通过将复制解旋酶 Gp41 加载到复制叉和重组中间体上来促进 DNA 复制。Gp59 还通过 Gp43 聚合酶阻止 DNA 合成,直到 Gp41 加载,从而确保合成与解旋紧密偶联。Gp59 的独特聚合酶阻断和解旋酶加载活性可能涉及与 DNA 和蛋白伴侣的不同结合相互作用。在这里,我们研究了 Gp59 与 DNA 以及 T4 单链 DNA(ssDNA)结合蛋白 Gp32 的相互作用如何与这些活性相关。以前已经确定的突变体 Gp59-I87A 对 ssDNA 和假叉 DNA 底物的亲和力明显降低。我们证明,在 Gp32 覆盖的 ssDNA 上,Gp59-I87A 的 DNA 结合缺陷对解旋酶加载和易位没有不利影响。相比之下,在假叉 DNA 上,即使存在或不存在 Gp32,I87A 突变也会损害解旋酶加载和解旋。其他结果表明,Gp32 与滞后链 ssDNA 的结合可解除 Gp59 对 Gp43 聚合酶活性的抑制,而 Gp43 外切核酸酶活性的抑制则得以维持。我们的研究结果表明,Gp59-Gp32 和 Gp59-DNA 相互作用在 T4 DNA 代谢中发挥独立但互补的作用;Gp59-Gp32 相互作用需要将 Gp41 加载到 D 环上,以及包含 Gp32 簇的其他核蛋白结构中。Gp59-DNA 相互作用需要将 Gp41 加载到缺少 Gp32 簇的新生或塌陷复制叉上,并协调来自 T4 原点的双向复制。Gp59 的双重功能使其能够从各种重组和复制中间体启动或重新启动 DNA 复制。