古菌保守染色质蛋白 Cren7 与双链 DNA 复合物的晶体结构。

Crystal structure of the crenarchaeal conserved chromatin protein Cren7 and double-stranded DNA complex.

机构信息

National Laboratory of Biomacromolecules, Institute of Biophysics, Chinese Academy of Sciences, Beijing 100101, People's Republic of China.

出版信息

Protein Sci. 2010 Jun;19(6):1253-7. doi: 10.1002/pro.385.

DOI:10.1002/pro.385

PMID:20512977

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2895249/

Abstract

Cren7 is a crenarchaeal conserved chromatin protein discovered recently. To explore the mechanism of the DNA packaging in Crenarchaeota, the crystal structure of Cren7-GCGATCGC complex has been determined and refined at 1.6 A resolution. Cren7 kinks the dsDNA sharply similar to Sul7d, another chromatin protein existing only in Sulfolobales, which reveals that the "bending and unwinding" compacting mechanism is conserved in Crenarchaeota. Significant structural differences are revealed by comparing both protein-dsDNA complexes. The kinked sites on the same dsDNA in the complexes with Sul7d and Cren7 show one base pair shift. For Cren7, fewer charged residues in the beta-barrel structural region bind to DNA, and additionally, the flexible loop L(beta3beta4) is also involved in the binding. Electrophoretic mobility shift assays indicate that loop L(beta3beta4) is essential for DNA-binding of Cren7. These differences provide insight into the functional difference of both chromatin proteins, suggesting that Cren7 may be more regulative than Sul7d in the DNA-binding affinity by the methylation in the flexible loop L(beta3beta4) in vivo.

摘要

Cren7 是最近发现的一种泉古菌保守染色质蛋白。为了探索泉古菌中 DNA 包装的机制，我们已经解析并精细修正了 Cren7-GCGATCGC 复合物的晶体结构，分辨率为 1.6Å。Cren7 使 dsDNA 急剧弯曲，与 Sul7d 相似，Sul7d 也是仅存在于 Sulfolobales 中的一种染色质蛋白，这表明“弯曲和展开”的压缩机制在泉古菌中是保守的。通过比较两个蛋白-dsDNA 复合物，揭示了显著的结构差异。在 Sul7d 和 Cren7 复合物中，同一 dsDNA 上的弯曲位点显示出一个碱基对的移动。对于 Cren7，β-桶结构区域中带较少电荷的残基与 DNA 结合，此外，柔性环 L(beta3beta4)也参与结合。电泳迁移率变动分析表明，柔性环 L(beta3beta4)对于 Cren7 的 DNA 结合是必需的。这些差异深入了解了两种染色质蛋白的功能差异，表明 Cren7 可能比 Sul7d 更具有调节性，因为在体内，柔性环 L(beta3beta4)的甲基化可能影响 DNA 结合亲和力。

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