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荧光力谱绘制了霍利迪连接体的二维反应景观图。

Fluorescence-force spectroscopy maps two-dimensional reaction landscape of the holliday junction.

作者信息

Hohng Sungchul, Zhou Ruobo, Nahas Michelle K, Yu Jin, Schulten Klaus, Lilley David M J, Ha Taekjip

机构信息

Department of Physics, University of Illinois at Urbana-Champaign, Urbana, IL 61801, USA.

出版信息

Science. 2007 Oct 12;318(5848):279-83. doi: 10.1126/science.1146113.

DOI:10.1126/science.1146113
PMID:17932299
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3558530/
Abstract

Despite the recent advances in single-molecule manipulation techniques, purely mechanical approaches cannot detect subtle conformational changes in the biologically important regime of weak forces. We developed a hybrid scheme combining force and fluorescence that allowed us to examine the effect of subpiconewton forces on the nanometer scale motion of the Holliday junction (HJ) at 100-hertz bandwidth. The HJ is an exquisitely sensitive force sensor whose force response is amplified with an increase in its arm lengths, demonstrating a lever-arm effect at the nanometer-length scale. Mechanical interrogation of the HJ in three different directions helped elucidate the structures of the transient species populated during its conformational changes. This method of mapping two-dimensional reaction landscapes at low forces is readily applicable to other nucleic acid systems and their interactions with proteins and enzymes.

摘要

尽管单分子操纵技术最近取得了进展,但纯粹的机械方法无法检测在弱力这一生物学重要范围内的细微构象变化。我们开发了一种结合力和荧光的混合方案,使我们能够在100赫兹带宽下研究亚皮牛顿力对霍利迪连接体(HJ)纳米尺度运动的影响。HJ是一种极其灵敏的力传感器,其力响应随着臂长的增加而放大,在纳米长度尺度上表现出杠杆臂效应。在三个不同方向上对HJ进行机械探测,有助于阐明其构象变化过程中形成的瞬态物种的结构。这种在低力下绘制二维反应景观的方法很容易应用于其他核酸系统及其与蛋白质和酶的相互作用。