通过荧光共振能量转移（FRET）和双色拴系荧光团运动实时分析FtsK转位酶介导的XerCD-dif重组的组装、易位和激活。

Assembly, translocation, and activation of XerCD-dif recombination by FtsK translocase analyzed in real-time by FRET and two-color tethered fluorophore motion.

作者信息

May Peter F J, Zawadzki Pawel, Sherratt David J, Kapanidis Achillefs N, Arciszewska Lidia K

机构信息

Biological Physics Research Group, Clarendon Laboratory, Department of Physics, University of Oxford, Oxford OX1 3PU, United Kingdom;

Department of Biochemistry, University of Oxford, Oxford OX1 3QU, United Kingdom.

出版信息

Proc Natl Acad Sci U S A. 2015 Sep 15;112(37):E5133-41. doi: 10.1073/pnas.1510814112. Epub 2015 Aug 31.

DOI:10.1073/pnas.1510814112

PMID:26324908

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4577173/

Abstract

The FtsK dsDNA translocase functions in bacterial chromosome unlinking by activating XerCD-dif recombination in the replication terminus region. To analyze FtsK assembly and translocation, and the subsequent activation of XerCD-dif recombination, we extended the tethered fluorophore motion technique, using two spectrally distinct fluorophores to monitor two effective lengths along the same tethered DNA molecule. We observed that FtsK assembled stepwise on DNA into a single hexamer, and began translocation rapidly (∼ 0.25 s). Without extruding DNA loops, single FtsK hexamers approached XerCD-dif and resided there for ∼ 0.5 s irrespective of whether XerCD-dif was synapsed or unsynapsed. FtsK then dissociated, rather than reversing. Infrequently, FtsK activated XerCD-dif recombination when it encountered a preformed synaptic complex, and dissociated before the completion of recombination, consistent with each FtsK-XerCD-dif encounter activating only one round of recombination.

摘要

FtsK双链DNA转位酶通过激活复制终点区域的XerCD-dif重组来发挥细菌染色体解链的功能。为了分析FtsK的组装和转位以及随后XerCD-dif重组的激活，我们扩展了系链荧光团运动技术，使用两个光谱不同的荧光团来监测沿着同一条系链DNA分子的两个有效长度。我们观察到FtsK在DNA上逐步组装成单个六聚体，并迅速开始转位（约0.25秒）。在不挤出DNA环的情况下，单个FtsK六聚体接近XerCD-dif并在那里停留约0.5秒，无论XerCD-dif是否已突触结合。然后FtsK解离，而不是逆转。偶尔，FtsK在遇到预先形成的突触复合体时会激活XerCD-dif重组，并在重组完成前解离，这与每次FtsK-XerCD-dif相遇仅激活一轮重组一致。

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