d(CA/TG)n的非B-DNA结构与Z-DNA的结构并无差异。

The non-B-DNA structure of d(CA/TG)n does not differ from that of Z-DNA.

作者信息

Ho P S

机构信息

Department of Biochemistry and Biophysics, Oregon State University, Corvallis 97331.

出版信息

Proc Natl Acad Sci U S A. 1994 Sep 27;91(20):9549-53. doi: 10.1073/pnas.91.20.9549.

DOI:10.1073/pnas.91.20.9549

PMID:7937803

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC44850/

Abstract

A number of recent studies have shown that simple repetitive d(CA/TG) dinucleotide sequences adopt a left-handed non-B-DNA structure under negative superhelical stress. The pattern of chemical reactivities and the helical parameters observed for these sequences differ significantly from those of standard Z-DNA. In this study, the data for two naturally occurring d(CA/TG)n sequences are reevaluated by a statistical mechanics treatment of the B- to Z-DNA transition. The behavior of these sequences under negative superhelical stress is accurately simulated by this model, including the multiple and discrete transitions observed for the rat prolactin promoter. Furthermore, the average helical twist for the left-handed structure of d(CA/TG)n deviates < 2% from that expected for standard Z-DNA. Finally, the predicted distribution of the junctions between B- and Z-DNA are shown to account for differences observed in the patterns of chemical reactivity of d(CA/TG)n and d(CG)n. Thus, no new left-handed structure that differs from Z-DNA is needed to describe the supercoil-induced conformation in d(CA/TG)n sequences.

摘要

最近的一些研究表明，简单的重复d(CA/TG)二核苷酸序列在负超螺旋应力下会形成左手非B-DNA结构。这些序列观察到的化学反应模式和螺旋参数与标准Z-DNA的有显著差异。在本研究中，通过对B-DNA到Z-DNA转变的统计力学处理，重新评估了两个天然存在的d(CA/TG)n序列的数据。该模型准确模拟了这些序列在负超螺旋应力下的行为，包括在大鼠催乳素启动子中观察到的多次和离散转变。此外，d(CA/TG)n左手结构的平均螺旋扭转与标准Z-DNA预期值的偏差小于2%。最后，预测的B-DNA和Z-DNA之间连接点的分布说明了d(CA/TG)n和d(CG)n化学反应模式中观察到的差异。因此，不需要用不同于Z-DNA的新左手结构来描述d(CA/TG)n序列中超螺旋诱导的构象。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/df97/44850/c1e855e652f9/pnas01142-0363-a.jpg

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Nucleic Acids Res. 1993 May 25;21(10):2343-8. doi: 10.1093/nar/21.10.2343.

B-DNA to Z-DNA structural transitions in the SV40 enhancer: stabilization of Z-DNA in negatively supercoiled DNA minicircles.SV40增强子中B-DNA到Z-DNA的结构转变：负超螺旋DNA小环中Z-DNA的稳定化

Biochemistry. 1993 Mar 9;32(9):2167-76. doi: 10.1021/bi00060a007.

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d(CA/TG)n的非B-DNA结构与Z-DNA的结构并无差异。

The non-B-DNA structure of d(CA/TG)n does not differ from that of Z-DNA.

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