MuB中的ATP-ADP转换控制Mu转座途径的进程。

An ATP-ADP switch in MuB controls progression of the Mu transposition pathway.

作者信息

Yamauchi M, Baker T A

机构信息

Department of Biology, Massachusetts Institute of Technology, 68-523, 77 Massachusetts Avenue, Cambridge, MA 02139, USA.

出版信息

EMBO J. 1998 Sep 15;17(18):5509-18. doi: 10.1093/emboj/17.18.5509.

DOI:10.1093/emboj/17.18.5509

PMID:9736628

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1170876/

Abstract

MuB protein, an ATP-dependent DNA-binding protein, collaborates with Mu transposase to promote efficient transposition. MuB binds target DNA, delivers this target DNA segment to transposase and activates transposase's catalytic functions. Using ATP-bound, ADP-bound and ATPase-defective MuB proteins we investigated how nucleotide binding and hydrolysis control the activities of MuB protein, important for transposition. We found that both MuB-ADP and MuB-ATP stimulate transposase, whereas only MuB-ATP binds with high affinity to DNA. Four different ATPase-defective MuB mutants fail to activate the normal transposition pathway, further indicating that ATP plays critical regulatory roles during transposition. These mutant proteins fall into two classes: class I mutants are defective in target DNA binding, whereas class II mutants bind target DNA, deliver it to transposase, but fail to promote recombination with this DNA. Based on these studies, we propose that the switch from the ATP- to ADP-bound form allows MuB to release the target DNA while maintaining its stimulatory interaction with transposase. Thus, ATP-hydrolysis by MuB appears to function as a molecular switch controlling how target DNA is delivered to the core transposition machinery.

摘要

MuB蛋白是一种依赖ATP的DNA结合蛋白，它与Mu转座酶协同作用以促进高效转座。MuB结合靶DNA，将该靶DNA片段递送至转座酶并激活转座酶的催化功能。我们使用结合ATP的、结合ADP的以及ATP酶缺陷型的MuB蛋白，研究了核苷酸结合和水解如何控制MuB蛋白的活性，这对转座很重要。我们发现MuB-ADP和MuB-ATP均能刺激转座酶，而只有MuB-ATP能以高亲和力结合DNA。四种不同的ATP酶缺陷型MuB突变体无法激活正常的转座途径，进一步表明ATP在转座过程中起关键的调节作用。这些突变蛋白分为两类：I类突变体在靶DNA结合方面存在缺陷，而II类突变体结合靶DNA，将其递送至转座酶，但无法促进与该DNA的重组。基于这些研究，我们提出从结合ATP的形式转变为结合ADP的形式可使MuB释放靶DNA，同时维持其与转座酶的刺激相互作用。因此，MuB的ATP水解似乎起到分子开关的作用，控制着靶DNA如何被递送至核心转座机制。

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