与d(CCAGTACTGG)结合的HOO-Co.博来霉素的结构模型：在d(GpT)位点的识别及对双链DNA切割的影响

A model of the structure of HOO-Co.bleomycin bound to d(CCAGTACTGG): recognition at the d(GpT) site and implications for double-stranded DNA cleavage.

作者信息

Vanderwall D E, Lui S M, Wu W, Turner C J, Kozarich J W, Stubbe J

机构信息

Merck Research Laboratory P.O. Box 2000, Rathway, NJ 07065-0900, USA.

出版信息

Chem Biol. 1997 May;4(5):373-87. doi: 10.1016/s1074-5521(97)90128-9.

DOI:10.1016/s1074-5521(97)90128-9

PMID:9195876

Abstract

BACKGROUND

The bleomycins (BLMs) are a family of natural products used clinically as antitumor agents. In the presence of their required cofactors, iron and oxygen, BLMs bind to and mediate single-stranded and double-stranded DNA cleavage. Recently, two dimensional nuclear magnetic resonance (2D NMR) spectroscopic studies and molecular modeling have provided a picture of how the hydroperoxide form of cobalt BLM A2 (HOO-CoBLM), an analog of 'activated' iron BLM (HOO-FeBLM), binds to a d(GpC) motif and of the basis for both sequence specificity and chemical specificity of DNA cleavage.

RESULTS

The solution structure of HOO-CoBLM bound to d(CCAGTACTGG) containing a 'hot spot' for double-stranded DNA cleavage at T5 and T15 is reported using constraints from 2D NMR spectroscopy. The mode of binding and basis for sequence specificity and chemical specificity of cleavage is almost identical to that of a d(GpC) motif. This structure has allowed formulation of a structural model for how a single molecule of FeBLM can mediate a double-stranded DNA cleavage event without dissociation from the DNA.

CONCLUSIONS

The structural similarity of HOO-CoBLM bound to d(GpT) in d(CCAGTACTGG) compared to a d(GpC) motif suggests a general paradigm for the binding of HOO-CoBLM to DNA and, by analogy, for the binding of the biological significant entity HOO-FeBLM.

摘要

背景

博来霉素（BLMs）是一类天然产物，在临床上用作抗肿瘤药物。在其所需的辅因子铁和氧存在的情况下，博来霉素与单链和双链DNA结合并介导其切割。最近，二维核磁共振（2D NMR）光谱研究和分子建模揭示了钴博来霉素A2的氢过氧化物形式（HOO-CoBLM），即“活化”铁博来霉素（HOO-FeBLM）的类似物，如何与d（GpC）基序结合以及DNA切割的序列特异性和化学特异性的基础。

结果

利用二维核磁共振光谱的限制条件，报道了与d（CCAGTACTGG）结合的HOO-CoBLM的溶液结构，该序列在T5和T15处存在双链DNA切割的“热点”。其结合模式以及切割的序列特异性和化学特异性的基础与d（GpC）基序几乎相同。该结构使得能够构建一个关于单个FeBLM分子如何在不与DNA解离的情况下介导双链DNA切割事件的结构模型。

结论

与d（GpC）基序相比，HOO-CoBLM与d（CCAGTACTGG）中的d（GpT）结合的结构相似性表明了HOO-CoBLM与DNA结合的一般模式，类推而言，也表明了具有生物学意义的实体HOO-FeBLM的结合模式。

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与d(CCAGTACTGG)结合的HOO-Co.博来霉素的结构模型：在d(GpT)位点的识别及对双链DNA切割的影响

A model of the structure of HOO-Co.bleomycin bound to d(CCAGTACTGG): recognition at the d(GpT) site and implications for double-stranded DNA cleavage.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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