通过经过良好调整的构象可塑性，进化的 DNA 读取器探测到的表观遗传 CpG 双链体标记。

Epigenetic CpG duplex marks probed by an evolved DNA reader via a well-tempered conformational plasticity.

机构信息

Department of Chemistry and Chemical Biology, Technical University Dortmund, Otto-Hahn-Str. 4a, 44227 Dortmund, Germany.

Theoretical Chemistry, Ruhr University Bochum, Universitätsstr. 150, 44801 Bochum, Germany.

出版信息

Nucleic Acids Res. 2023 Jul 7;51(12):6495-6506. doi: 10.1093/nar/gkad134.

DOI:10.1093/nar/gkad134

PMID:36919612

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10325892/

Abstract

5-methylcytosine (mC) and its TET-oxidized derivatives exist in CpG dyads of mammalian DNA and regulate cell fate, but how their individual combinations in the two strands of a CpG act as distinct regulatory signals is poorly understood. Readers that selectively recognize such novel 'CpG duplex marks' could be versatile tools for studying their biological functions, but their design represents an unprecedented selectivity challenge. By mutational studies, NMR relaxation, and MD simulations, we here show that the selectivity of the first designer reader for an oxidized CpG duplex mark hinges on precisely tempered conformational plasticity of the scaffold adopted during directed evolution. Our observations reveal the critical aspect of defined motional features in this novel reader for affinity and specificity in the DNA/protein interaction, providing unexpected prospects for further design progress in this novel area of DNA recognition.

摘要

5- 甲基胞嘧啶（mC）及其 TET- 氧化衍生物存在于哺乳动物 DNA 的 CpG 二联体中，调节细胞命运，但它们在 CpG 两条链上的各自组合如何作为不同的调节信号尚不清楚。选择性识别这些新型“CpG 双链标记”的读码器可能是研究其生物学功能的通用工具，但它们的设计代表了前所未有的选择性挑战。通过突变研究、NMR 弛豫和 MD 模拟，我们在这里表明，第一个设计读码器对氧化 CpG 双链标记的选择性取决于在定向进化过程中支架采用的精确调整构象可塑性。我们的观察结果揭示了在这种新型 DNA 识别领域中，该新型读码器中确定的运动特征在 DNA/蛋白质相互作用中的亲和力和特异性方面的关键方面，为该领域的进一步设计进展提供了意外的前景。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c78d/10325892/c19dce0e3665/gkad134figgra1.jpg

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通过经过良好调整的构象可塑性，进化的 DNA 读取器探测到的表观遗传 CpG 双链体标记。

Epigenetic CpG duplex marks probed by an evolved DNA reader via a well-tempered conformational plasticity.

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