通过原子力显微镜直接观察反向回旋酶引入的正超螺旋。

Direct observation of positive supercoils introduced by reverse gyrase through atomic force microscopy.

作者信息

Li Dawei, Lv Bei, Wang Qiang, Liu Yun, Zhuge Qiang

机构信息

Key Lab of Forest Genetics and Biotechnology, Nanjing Forestry University, 159 Longpan Road, Nanjing 210037, China.

Jiangsu Key Laboratory for Biofunctional Molecules, College of Life Science and Chemistry, Jiangsu Second Normal University, Nanjing 210037, China.

出版信息

Bioorg Med Chem Lett. 2017 Sep 1;27(17):4086-4090. doi: 10.1016/j.bmcl.2017.07.044. Epub 2017 Jul 15.

DOI:10.1016/j.bmcl.2017.07.044

PMID:28756025

Abstract

Reverse gyrase is a hyperthermophilic enzyme that can introduce positive supercoiling in substrate DNA. It is showed in our studies that positive DNA supercoils were induced in both pBR322 vector and an artificially synthesized mini-plasmid DNA by reverse gyrase. The left-handed structures adopted by positively supercoiled DNA molecules could be identified from their right-handed topoisomers through atomic force microscopic examination. Additional structural comparisons revealed that positively supercoiled DNA molecule AFM images exhibited increased contour lengths. Moreover, enzymatic assays showed that the positively supercoiled DNA could not be cleaved by T7 endonuclease. Together, this suggests that the overwound structure of positive supercoils could prevent genomic duplex DNA from randomly forming single-stranded DNA regions and intra-stranded secondary structures.

摘要

反向回旋酶是一种嗜热酶，能够在底物DNA中引入正超螺旋。我们的研究表明，反向回旋酶在pBR322载体和人工合成的小质粒DNA中均诱导产生了正DNA超螺旋。通过原子力显微镜检查，可以从其右手拓扑异构体中识别出正超螺旋DNA分子所采用的左手结构。进一步的结构比较表明，正超螺旋DNA分子的原子力显微镜图像显示其轮廓长度增加。此外，酶活性测定表明，正超螺旋DNA不能被T7核酸内切酶切割。综上所述，这表明正超螺旋的过度缠绕结构可以防止基因组双链DNA随机形成单链DNA区域和链内二级结构。

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通过原子力显微镜直接观察反向回旋酶引入的正超螺旋。

Direct observation of positive supercoils introduced by reverse gyrase through atomic force microscopy.

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