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基序III的一个残基在限制修饰酶EcoR124I中定位了马达亚基HsdR的解旋酶结构域。

A residue of motif III positions the helicase domains of motor subunit HsdR in restriction-modification enzyme EcoR124I.

作者信息

Sinha Dhiraj, Bialevich Vitali, Shamayeva Katsiaryna, Guzanova Alena, Sisakova Alexandra, Csefalvay Eva, Reha David, Krejci Lumir, Carey Jannette, Weiserova Marie, Ettrich Rüdiger

机构信息

Center for Nanobiology and Structural Biology, Institute of Microbiology, Academy of Sciences of the Czech Republic, Zamek 136, CZ-373 33, Nove Hrady, Czech Republic.

Institute of Microbiology, Academy of Sciences of the Czech Republic, Vídeňská 1083, 142 20, Praha 4, Czech Republic.

出版信息

J Mol Model. 2018 Jun 26;24(7):176. doi: 10.1007/s00894-018-3722-8.

DOI:10.1007/s00894-018-3722-8
PMID:29943199
Abstract

Type I restriction-modification enzymes differ significantly from the type II enzymes commonly used as molecular biology reagents. On hemi-methylated DNAs type I enzymes like the EcoR124I restriction-modification complex act as conventional adenine methylases at their specific target sequences, but unmethylated targets induce them to translocate thousands of base pairs through the stationary enzyme before cleaving distant sites nonspecifically. EcoR124I is a superfamily 2 DEAD-box helicase like eukaryotic double-strand DNA translocase Rad54, with two RecA-like helicase domains and seven characteristic sequence motifs that are implicated in translocation. In Rad54 a so-called extended region adjacent to motif III is involved in ATPase activity. Although the EcoR124I extended region bears sequence and structural similarities with Rad54, it does not influence ATPase or restriction activity as shown in this work, but mutagenesis of the conserved glycine residue of its motif III does alter ATPase and DNA cleavage activity. Through the lens of molecular dynamics, a full model of HsdR of EcoR124I based on available crystal structures allowed interpretation of functional effects of mutants in motif III and its extended region. The results indicate that the conserved glycine residue of motif III has a role in positioning the two helicase domains.

摘要

I型限制修饰酶与通常用作分子生物学试剂的II型酶有显著差异。在半甲基化DNA上,像EcoR124I限制修饰复合体这样的I型酶在其特定靶序列处作为常规腺嘌呤甲基化酶起作用,但未甲基化的靶标会诱导它们在非特异性切割远处位点之前,通过固定的酶移位数千个碱基对。EcoR124I是一种超家族2的DEAD-box解旋酶,类似于真核双链DNA转位酶Rad54,具有两个RecA样解旋酶结构域和七个与转位有关的特征序列基序。在Rad54中,与基序III相邻的一个所谓的延伸区域参与ATP酶活性。尽管EcoR124I的延伸区域与Rad54在序列和结构上有相似性,但如本研究所示,它并不影响ATP酶或限制活性,但其基序III中保守甘氨酸残基的诱变确实会改变ATP酶和DNA切割活性。通过分子动力学的视角,基于现有晶体结构构建的EcoR124I的HsdR完整模型,能够解释基序III及其延伸区域中突变体的功能效应。结果表明,基序III中保守的甘氨酸残基在定位两个解旋酶结构域方面发挥作用。

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引用本文的文献

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本文引用的文献

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PeerJ. 2017 Jan 18;5:e2887. doi: 10.7717/peerj.2887. eCollection 2017.
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Interdomain communication in the endonuclease/motor subunit of type I restriction-modification enzyme EcoR124I.I型限制-修饰酶EcoR124I的核酸内切酶/运动亚基中的结构域间通讯。
J Mol Model. 2014 Jul;20(7):2334. doi: 10.1007/s00894-014-2334-1. Epub 2014 Jun 28.
3
The PCNA interaction protein box sequence in Rad54 is an integral part of its ATPase domain and is required for efficient DNA repair and recombination.
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PLoS One. 2013 Dec 20;8(12):e82630. doi: 10.1371/journal.pone.0082630. eCollection 2013.
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A conserved sequence extending motif III of the motor domain in the Snf2-family DNA translocase Rad54 is critical for ATPase activity.Snf2家族DNA转位酶Rad54中延伸至马达结构域基序III的保守序列对ATP酶活性至关重要。
PLoS One. 2013 Dec 16;8(12):e82184. doi: 10.1371/journal.pone.0082184. eCollection 2013.
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GROMACS 4.5: a high-throughput and highly parallel open source molecular simulation toolkit.GROMACS 4.5:一个高吞吐量、高度并行的开源分子模拟工具包。
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