Z-DNA Formation in the Hybrid between Two Circular ssDNAs Involving Hairpin Structures.

IF 3.5 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

ACS Chemical Biology Pub Date : 2025-05-21 DOI:10.1021/acschembio.5c00185

Mengqin Liu, Angda Li, Ran An, Xingguo Liang

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Abstract

Z-DNA, a left-handed DNA conformation, plays critical roles in transcriptional regulation, genetic recombination, genomic instability, immunity, and human diseases. In 2019, a stable LR-chimera containing Z-DNA (Lk = 0) under physiological ionic conditions was prepared by hybridizing two complementary circular ssDNAs. However, the difficulty in preparing circular ssDNA precursors and the excessively long Z-DNA segment in the chimera limit its applications. In this study, using a splint-free circularization method, we prepared two circular ssDNAs (each with a hairpin structure). Hybridization of these two circles whose loops are complementary (but not the two hairpins) yielded a Stem-LR chimera containing short Z-DNA and B-DNA and two hairpins that could not hybridize with each other. Stability analysis revealed that the 18-34 bp Z-DNA segment with only unmodified nucleotides in the Stem-LR chimera remained stable under physiological conditions (10 mM Mg²⁺, 37 °C). When hairpins were far apart (180°), multiple Stem-LR chimera isomers (varying in B-Z junction numbers and Z-DNA lengths) formed. Intriguingly, higher hybridization temperatures (60 °C) favored continuous B-DNA and Z-DNA segments (minimal B-Z junctions). When hairpins were adjacent (0° orientation), exclusively continuous B-DNA/Z-DNA was obtained, even for hybridization at 10 °C. As expected, Stem-LR chimeras exhibited enhanced resistance to topoisomerase I compared to chimeras without hairpins. This approach holds promise for delivery into cells or organisms to investigate the impact of Z-DNA and its biological functions under physiological conditions.

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涉及发夹结构的两个环状ssdna杂交中Z-DNA的形成。

Z-DNA是一种左旋DNA构象，在转录调控、基因重组、基因组不稳定性、免疫和人类疾病中起着关键作用。2019年，通过对两个互补的环状ssdna进行杂交，制备了生理离子条件下含有Z-DNA （Lk = 0）的稳定lr -嵌合体。然而，制备环状ssDNA前体的困难和嵌合体中Z-DNA片段过长限制了其应用。在这项研究中，我们使用无夹板的圆化方法制备了两个圆形的ssdna（每个都具有发夹结构）。杂交这两个环是互补的（但不是两个发夹），产生了一个含有短的Z-DNA和B-DNA的Stem-LR嵌合体，两个发夹不能相互杂交。稳定性分析表明，在生理条件（10 mM Mg2+, 37°C）下，Stem-LR嵌合体中仅含未修饰核苷酸的18-34 bp Z-DNA片段保持稳定。当发夹距离较远（180°）时，形成多个茎- lr嵌合异构体（B-Z结数和Z-DNA长度不同）。有趣的是，较高的杂交温度（60°C）有利于连续的B-DNA和Z-DNA片段（最小的B-Z连接）。当发夹相邻（0°取向）时，即使在10°C下杂交，也能获得完全连续的B-DNA/Z-DNA。正如预期的那样，与没有发夹的嵌合体相比，Stem-LR嵌合体对拓扑异构酶I的抗性增强。这种方法有望进入细胞或生物体，以研究Z-DNA在生理条件下的影响及其生物学功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Chemical Biology 生物-生化与分子生物学

CiteScore

7.50

自引率

5.00%

发文量

353

审稿时长

3.3 months

期刊介绍： ACS Chemical Biology provides an international forum for the rapid communication of research that broadly embraces the interface between chemistry and biology. The journal also serves as a forum to facilitate the communication between biologists and chemists that will translate into new research opportunities and discoveries. Results will be published in which molecular reasoning has been used to probe questions through in vitro investigations, cell biological methods, or organismic studies. We welcome mechanistic studies on proteins, nucleic acids, sugars, lipids, and nonbiological polymers. The journal serves a large scientific community, exploring cellular function from both chemical and biological perspectives. It is understood that submitted work is based upon original results and has not been published previously.