双Holliday结构：大肠杆菌中一般重组可能的体内中间形式。

Double Holliday structure: a possible in vivo intermediate form of general recombination in Escherichia coli.

作者信息

Kobayashi I, Ikeda H

出版信息

Mol Gen Genet. 1983;191(2):213-20. doi: 10.1007/BF00334816.

Abstract

From Escherichia coli cells we purified '8'-shaped dimeric molecules in which two circular DNA molecules of bacteriophage lambda were joined at a homologous site. Some of them had a complex junction which we interpreted as being two closely spaced Holliday structures because of (i) superhelicity of the molecule, (ii) the sedimentation rate of the molecule in sucrose gradients, and (iii) the appearance in the electron microscope. Other 'figure-eights's' had two separate homologous junctions, presumably two Holliday bridges. A possible role for these 'double Holliday structures' in UV-stimulated recA-dependent recombination in vivo is discussed.

摘要

我们从大肠杆菌细胞中纯化出了“8”字形的二聚体分子，其中两个噬菌体λ的环状DNA分子在一个同源位点相连。其中一些分子具有复杂的连接点，由于（i）分子的超螺旋性，（ii）该分子在蔗糖梯度中的沉降速率，以及（iii）在电子显微镜下的外观，我们将其解释为两个紧密间隔的霍利迪结构。其他的“8”字形分子有两个独立的同源连接点，推测是两个霍利迪桥。本文讨论了这些“双霍利迪结构”在体内紫外线刺激的recA依赖性重组中的可能作用。

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双Holliday结构：大肠杆菌中一般重组可能的体内中间形式。

Double Holliday structure: a possible in vivo intermediate form of general recombination in Escherichia coli.

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