与d(CCAGGCCTGG)2复合的钴(III)博来霉素氢过氧化物的溶液结构：部分嵌入结合的证据

Solution structure of the hydroperoxide of Co(III) phleomycin complexed with d(CCAGGCCTGG)2: evidence for binding by partial intercalation.

作者信息

Wu Wei, Vanderwall Dana E, Turner Christopher J, Hoehn Silvia, Chen Jingyang, Kozarich John W, Stubbe JoAnne

机构信息

Department of Chemistry, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.

出版信息

Nucleic Acids Res. 2002 Nov 15;30(22):4881-91. doi: 10.1093/nar/gkf608.

DOI:10.1093/nar/gkf608

PMID:12433991

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC137157/

Abstract

The bleomycins (BLMs) are natural products that in the presence of iron and oxygen bind to and cause single-strand and double-strand cleavage of DNA. The mode(s) of binding of the FeBLMs that leads to sequence-specific cleavage at pyrimidines 3' to guanines and chemical-specific cleavage at the C-4' H of the deoxyribose of the pyrimidine has remained controversial. 2D NMR studies using the hydroperoxide of CoBLM (HOO-CoBLM) have demonstrated that its bithiazole tail binds by partial intercalation to duplex DNA. Studies with ZnBLM demonstrate that the bithiazole tail binds in the minor groove. Phleomycins (PLMs) are BLM analogs in which the penultimate thiazolium ring of the bithiazole tail is reduced. The disruption of planarity of this ring and the similarities between FePLM- and FeBLM-mediated DNA cleavage have led Hecht and co-workers to conclude that a partial intercalative mode of binding is not feasible. The interaction of HOO-CoPLM with d(CCAGGCCTGG)2 has therefore been investigated. Binding studies indicate a single site with a K(d) of 16 micro M, 100-fold greater than HOO-CoBLM for the same site. 2D NMR methods and molecular modeling using NMR-derived restraints have led to a structural model of HOO-CoPLM complexed to d(CCAGGCCTGG)2. The model reveals a partial intercalative mode of binding and the basis for sequence specificity of binding and chemical specificity of cleavage. The importance of the bithiazoles and the partial intercalative mode of binding in the double-strand cleavage of DNA is discussed.

摘要

博来霉素（BLMs）是一类天然产物，在铁和氧存在的情况下，它们会与DNA结合并导致DNA单链和双链断裂。铁-博来霉素（FeBLMs）的结合模式导致在鸟嘌呤3'端的嘧啶处发生序列特异性切割以及在嘧啶脱氧核糖的C-4'H处发生化学特异性切割，这一点一直存在争议。使用钴-博来霉素氢过氧化物（HOO-CoBLM）进行的二维核磁共振研究表明，其双噻唑尾部通过部分嵌入与双链DNA结合。对锌-博来霉素（ZnBLM）的研究表明，双噻唑尾部结合在小沟中。腐草霉素（PLMs）是博来霉素类似物，其中双噻唑尾部的倒数第二个噻唑鎓环被还原。该环平面性的破坏以及FePLM和FeBLM介导的DNA切割之间的相似性，使得赫克特及其同事得出结论，部分嵌入结合模式是不可行的。因此，研究了HOO-CoPLM与d(CCAGGCCTGG)2的相互作用。结合研究表明存在一个单一结合位点，解离常数（K(d)）为16 μM，比HOO-CoBLM对同一位点的亲和力大100倍。二维核磁共振方法以及使用核磁共振衍生约束的分子建模，得出了HOO-CoPLM与d(CCAGGCCTGG)2复合的结构模型。该模型揭示了一种部分嵌入结合模式以及结合序列特异性和切割化学特异性的基础。讨论了双噻唑在DNA双链切割中的重要性以及部分嵌入结合模式。

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