正向扭转应变会导致复制叉处形成四向连接。

Positive torsional strain causes the formation of a four-way junction at replication forks.

作者信息

Postow L, Ullsperger C, Keller R W, Bustamante C, Vologodskii A V, Cozzarelli N R

机构信息

Department of Molecular and Cell Biology, University of California, Berkeley 94720, USA.

出版信息

J Biol Chem. 2001 Jan 26;276(4):2790-6. doi: 10.1074/jbc.M006736200. Epub 2000 Oct 30.

DOI:10.1074/jbc.M006736200

PMID:11056156

Abstract

The advance of a DNA replication fork requires an unwinding of the parental double helix. This in turn creates a positive superhelical stress, a (+)-DeltaLk, that must be relaxed by topoisomerases for replication to proceed. Surprisingly, partially replicated plasmids with a (+)-DeltaLk were not supercoiled nor were the replicated arms interwound in precatenanes. The electrophoretic mobility of these molecules indicated that they have no net writhe. Instead, the (+)-DeltaLk is absorbed by a regression of the replication fork. As the parental DNA strands re-anneal, the resultant displaced daughter strands base pair to each other to form a four-way junction at the replication fork, which is locally identical to a Holliday junction in recombination. We showed by restriction endonuclease digestion that the junction can form at either the terminus or the origin of replication and we visualized the structure with scanning force microscopy. We discuss possible physiological implications of the junction for stalled replication in vivo.

摘要

DNA复制叉的前进需要解开亲代双螺旋。这反过来又会产生正超螺旋应力，即(+)-ΔLk，拓扑异构酶必须将其松弛，复制才能继续进行。令人惊讶的是，具有(+)-ΔLk的部分复制质粒既没有超螺旋，复制臂也没有在预连环体中相互缠绕。这些分子的电泳迁移率表明它们没有净扭曲。相反，(+)-ΔLk被复制叉的倒退所吸收。随着亲代DNA链重新退火，产生的被置换的子代链相互碱基配对，在复制叉处形成一个四向连接，该连接在局部与重组中的霍利迪连接相同。我们通过限制性内切酶消化表明，该连接可以在复制的末端或起点形成，并且我们用扫描力显微镜观察了该结构。我们讨论了该连接对体内停滞复制可能的生理影响。

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正向扭转应变会导致复制叉处形成四向连接。

Positive torsional strain causes the formation of a four-way junction at replication forks.

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