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Interactions of the transposase with the ends of Mu: formation of specific nucleoprotein structures and non-cooperative binding of the transposase to its binding sites.

机译：转座酶与Mu末端的相互作用：特定核蛋白结构的形成以及转座酶与其结合位点的非合作结合。

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摘要

Transposition of the E. coli bacteriophage Mu requires the phage encoded A and B proteins, the host protein HU and the host replication proteins. The ends of the genome of the phage, on which some of these proteins act, both contain three transposase (A) binding sites. The organization of these binding sites on each end, however, is different. Here we show, using DNase footprinting experiments with purified A protein, that mutant A binding sites, which affect transposition, have decreased affinity for the transposase. Furthermore the transposase binds non-cooperatively to all A binding sites both in the left and right end of Mu. Electron microscopic studies show that the A protein forms specific nucleoprotein structures upon binding to the ends of Mu. The A and B proteins interact with the ends of Mu to generate larger structures than with the A protein alone.

机译：大肠杆菌噬菌体Mu的转位需要噬菌体编码的A和B蛋白，宿主蛋白HU和宿主复制蛋白。这些蛋白质中的一些作用于噬菌体的基因组的末端，均包含三个转座酶（A）结合位点。但是，这些结合位点在每一端的组织都不同。在这里，我们显示，使用带有纯化A蛋白的DNase足迹实验，影响转座的突变A结合位点对转座酶的亲和力降低。此外，转座酶非合作地与Mu的左端和右端的所有A结合位点结合。电子显微镜研究表明，A蛋白结合到Mu的末端后形成特定的核蛋白结构。与单独的A蛋白相比，A和B蛋白与Mu的末端相互作用产生更大的结构。

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期刊名称 Nucleic Acids Research
作者
M A Groenen; M Vollering; P Krijgsman; K van Drunen; P van de Putte;
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作者单位

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年(卷),期 1987(15),21
年度 1987
页码 8831–8844
总页数 14
原文格式 PDF
正文语种
中图分类分子生物学;
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专利

1. Interactions of the transposase with the ends of Mu: formation of specific nucleoprotein structures and non-cooperative binding of the transposase to its binding sites [J] . Kees van Drunen, Martha Vollering, Martien A. M. Groenen, Nucleic acids research . 1987,第21期

机译：转座酶与Mu末端的相互作用：特定核蛋白结构的形成以及转座酶与其结合位点的非合作结合
2. SOLUTION STRUCTURE OF THE I-GAMMA SUBDOMAIN OF THE MU END DNA-BINDING DOMAIN OF PHAGE MU TRANSPOSASE [J] . Clubb RT., Mizuuchi K., Gronenborn AM., Journal of Molecular Biology . 1997,第1期

机译：噬菌体MU转座酶MU末端DNA结合域的I-γ亚域的溶液结构
3. Altering the DNA-binding specificity of Mu transposase in vitro. [J] . Namgoong SY, Sankaralingam S, Harshey RM Nucleic Acids Research . 1998,第15期

机译：在体外改变Mu转座酶的DNA结合特异性。
4. An Information Theoretic Approach for the Analysis of RNA and DNA Binding Sites. [C] . Sheng Li, Huzefa Rangwala 3rd international conference on bioinformatics and computational biology 2011 . 2011

机译：分析RNA和DNA结合位点的信息理论方法。
5. Three-dimensional structural studies of the mu transposase and the mu transpososome using cryo-scanning transmission electron microscopy. [D] . Yuan, Joy F. 2004

机译：使用低温扫描透射电子显微镜对mu转座酶和mu转座体进行三维结构研究。
6. Solution structure of the Mu end DNA-binding ibeta subdomain of phage Mu transposase: modular DNA recognition by two tethered domains. [O] . S Schumacher, R T Clubb, M Cai, 1997

机译：噬菌体Mu转座酶的Mu末端结合DNA的ibeta子结构域的溶液结构：通过两个束缚结构域的模块化DNA识别。
7. Interactions of the transposase with the ends of Mu: formation of specific nucleoprotein structures and non-cooperative binding of the transposase to its binding sites. [O] . Groenen, M A, Vollering, M, Krijgsman, P, 1987

机译：转座酶与Mu末端的相互作用：特定核蛋白结构的形成以及转座酶与其结合位点的非合作结合。

Interactions of the transposase with the ends of Mu: formation of specific nucleoprotein structures and non-cooperative binding of the transposase to its binding sites.

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