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靶向化学楔形物揭示了变构DNA调节在蛋白质-DNA组装中的作用。

Targeted chemical wedges reveal the role of allosteric DNA modulation in protein-DNA assembly.

作者信息

Moretti Rocco, Donato Leslie J, Brezinski Mary L, Stafford Ryan L, Hoff Helena, Thorson Jon S, Dervan Peter B, Ansari Aseem Z

机构信息

Department of Biochemistry and The Genome Center, University of Wisconsin-Madison, Madison, Wisconsin 53706, USA.

出版信息

ACS Chem Biol. 2008 Apr 18;3(4):220-9. doi: 10.1021/cb700258r.

DOI:10.1021/cb700258r
PMID:18422304
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3060767/
Abstract

The cooperative assembly of multiprotein complexes results from allosteric modulations of DNA structure as well as direct intermolecular contacts between proteins. Such cooperative binding plays a critical role in imparting exquisite sequence specificity on the homeobox transcription factor (Hox) family of developmental transcription factors. A well-characterized example includes the interaction of Hox proteins with extradenticle (Exd), a highly conserved DNA binding transcription factor. Although direct interactions are important, the contribution of indirect interactions toward cooperative assembly of Hox and Exd remains unresolved. Here we use minor groove binding polyamides as structural wedges to induce perturbations at specific base steps within the Exd binding site. We find that allosteric modulation of DNA structure contributes nearly 1.5 kcal/mol to the binding of Exd to DNA, even in the absence of direct Hox contacts. In contrast to previous studies, the sequence-targeted chemical wedges reveal the role of DNA geometry in cooperative assembly of Hox-Exd complexes. Programmable polyamides may well serve as general probes to investigate the role of DNA modulation in the cooperative and highly specific assembly of other protein-DNA complexes.

摘要

多蛋白复合物的协同组装源于DNA结构的变构调节以及蛋白质之间的直接分子间接触。这种协同结合在赋予发育转录因子同源框转录因子(Hox)家族精确的序列特异性方面起着关键作用。一个特征明确的例子是Hox蛋白与额外牙本质(Exd)的相互作用,Exd是一种高度保守的DNA结合转录因子。虽然直接相互作用很重要,但间接相互作用对Hox和Exd协同组装的贡献仍未得到解决。在这里,我们使用小沟结合聚酰胺作为结构楔子,在Exd结合位点内的特定碱基步骤处诱导扰动。我们发现,即使在没有直接Hox接触的情况下,DNA结构的变构调节对Exd与DNA的结合贡献近1.5千卡/摩尔。与之前的研究不同,序列靶向化学楔子揭示了DNA几何形状在Hox-Exd复合物协同组装中的作用。可编程聚酰胺很可能作为通用探针,用于研究DNA调节在其他蛋白质-DNA复合物协同和高度特异性组装中的作用。

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