Converting Multiple- to Single-DNA-Tethered Beads and Removing Only-One-End-Tethered DNA in High-Throughput Stretching

IF 8.2 1区化学 Q1 CHEMISTRY, ANALYTICAL

ACS Sensors Pub Date : 2024-10-18 DOI:10.1021/acssensors.4c02585

Er-Chi Zhou, Hang Fu, Hao-Ze Wang, Ya-Jun Yang, Xing-Hua Zhang

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Abstract

S-DNA is a double-stranded DNA that forms under tensions of >65 pN. Here, we report that S-DNA resists the cleavage of Cas12a and the restriction endonuclease SmaI. Taking advantage of this resistance, in magnetic tweezer experiments, we developed an assay to convert multiple-DNA-tethered beads into single-DNA-tethered beads and remove the only-one-end-tethered DNA molecule by cleaving the DNA that does not transition to S-DNA at about 80 pN. When multiple DNA molecules are tethered to a single bead, they share the tension, exist in the B-form, and allow the cleavage. Only-one-end-tethered DNA molecules, free of tension, are also cleaved. In versatile types of experiments, we proved the broad applications of this assay: measuring the correct DNA elasticity and DNA condensation dynamics by avoiding the false results due to interference of only-one-end-tethered DNA molecules and quantifying the accurate cleavage rates of Cas12a and the restriction endonucleases by eliminating the error caused by multiple-DNA-tethered beads. This convenient assay ensures correct and accurate results in high-throughput DNA stretching experiments.

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在高通量拉伸过程中将多DNA系留珠转换为单DNA系留珠，并去除仅一端系留的DNA

S-DNA 是一种在 65 pN 张力下形成的双链 DNA。在这里，我们报告了 S-DNA 能抵抗 Cas12a 和限制性内切酶 SmaI 的裂解。利用这种抗性，在磁镊实验中，我们开发了一种检测方法，将多DNA系留珠转化为单DNA系留珠，并通过在约80 pN时裂解未转化为S-DNA的DNA来移除仅一端系留的DNA分子。当多个 DNA 分子系在一个珠子上时，它们共享张力，以 B-形式存在，并允许裂解。只有一端系在一起的 DNA 分子在没有张力的情况下也会被裂解。在多种类型的实验中，我们证明了这种检测方法的广泛应用：通过避免仅一端系链 DNA 分子的干扰而得出错误结果，从而测量正确的 DNA 弹性和 DNA 凝聚动力学；通过消除多 DNA 系链珠造成的误差而量化 Cas12a 和限制性内切酶的准确裂解率。这种便捷的检测方法可确保在高通量 DNA 拉伸实验中得到正确、准确的结果。

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来源期刊

ACS Sensors Chemical Engineering-Bioengineering

CiteScore

14.50

自引率

3.40%

发文量

372

期刊介绍： ACS Sensors is a peer-reviewed research journal that focuses on the dissemination of new and original knowledge in the field of sensor science, particularly those that selectively sense chemical or biological species or processes. The journal covers a broad range of topics, including but not limited to biosensors, chemical sensors, gas sensors, intracellular sensors, single molecule sensors, cell chips, and microfluidic devices. It aims to publish articles that address conceptual advances in sensing technology applicable to various types of analytes or application papers that report on the use of existing sensing concepts in new ways or for new analytes.