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Machines on Genes: Enzymes that Make Break and Move DNA and RNA: Maintaining a sense of direction during long-range communication on DNA

机译：基因机器：制造破坏和移动DNA和RNA的酶：在与DNA进行长距离通讯时保持方向感

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摘要

Many biological processes rely on the interaction of proteins with multiple DNA sites separated by thousands of base pairs. These long-range communication events can be driven by both the thermal motions of proteins and DNA, and directional protein motions that are rectified by ATP hydrolysis. The present review describes conflicting experiments that have sought to explain how the ATP-dependent Type III restriction–modification enzymes can cut DNA with two sites in an inverted repeat, but not DNA with two sites in direct repeat. We suggest that an ATPase activity may not automatically indicate a DNA translocase, but can alternatively indicate a molecular switch that triggers communication by thermally driven DNA sliding. The generality of this mechanism to other ATP-dependent communication processes such as mismatch repair is also discussed.

机译：许多生物学过程都依赖于蛋白质与被数千个碱基对分隔的多个DNA位点的相互作用。这些远程通讯事件可由蛋白质和DNA的热运动以及由ATP水解纠正的定向蛋白质运动共同驱动。本综述描述了一些矛盾的实验，这些实验试图解释依赖ATP的III型限制性修饰酶如何切割反向重复序列中两个位点的DNA，而不是直接重复序列中两个位点的DNA。我们建议ATPase活性可能不会自动指示DNA转移酶，但可以指示通过热驱动DNA滑动触发通信的分子开关。还讨论了该机制对其他依赖ATP的通信过程（如失配修复）的一般性。

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期刊名称 Portland Press Open Access
作者
Mark D. Szczelkun; Peter Friedhoff; Ralf Seidel;
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作者单位

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年(卷),期 -1(38),Pt 2
年度 -1
页码 404–409
总页数 6
原文格式 PDF
正文语种
中图分类
关键词
ATPase DNA sliding helicase mismatch repair molecular switch restriction–modification;

机译：ATPase;DNA滑动;解旋酶;错配修复;分子开关;限制性修饰;

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专利

1. Mapping DNA cleavage by the Type ISP restriction-modification enzymes following long-range communication between DNA sites in different orientations [J] . van Aelst Kara, Saikrishnan Kayarat, Szczelkun Mark D. Nucleic Acids Research . 2015,第21期

机译：在不同方向的DNA位点之间进行长距离通讯后，通过ISP型限制性修饰酶进行DNA切割的定位
2. Mapping DNA cleavage by the Type ISP restriction-modification enzymes following long-range communication between DNA sites in different orientations [J] . Kara van?Aelst, Kayarat Saikrishnan, Mark D. Szczelkun Nucleic acids research . 2015,第21期

机译：在不同方向的DNA位点之间进行长距离通讯后，通过ISP型限制性修饰酶进行DNA切割的定位
3. Potent Intracellular Knock Down of Hepatitis B Virus X RNA by CatalyticHammerhead Ribozymes or DNA-Enzymes with Antisense DNA-Oligonucleotidesor 10-23 DNA-Enzymes that Powerfully Augment In VitroSequence-Specific Cleavage Activities [J] . Nidhi Gupta, Aalia S. Bano, Yogeshwar Sharma, The open biotechnology journal . 2017,第1期

机译：通过催化锤头状核酶或具有反义DNA寡核苷酸或10-23个DNA酶的DNA酶有效地敲除乙型肝炎病毒X RNA的能力，可有效增强体外序列特异性切割活性。
4. Improve Capability of DNA Automaton: DNA Automaton with Three Internal States and Tape Head Move in Two Directions [C] . Xiaolong Shi, Xin Li, Zheng Zhang, International Conference on Advances in Intelligent Computing(ICIC 2005); 20050823-26; Hefei(CN) . 2005

机译：提高DNA自动机的能力：具有三个内部状态和磁带头向两个方向移动的DNA自动机
5. Surface Enzyme Chemistries for the On-Chip Synthesis of DNA, RNA, and Protein Microarrays for in vitro Surface Plasmon Resonance Biosensing. [D] . Seefeld, Ting Hu. 2012

机译：用于体外表面等离振子共振生物传感芯片，DNA，RNA和蛋白质微阵列芯片上合成的表面酶化学。
6. Mapping DNA cleavage by the Type ISP restriction-modification enzymes following long-range communication between DNA sites in different orientations [O] . Kara van Aelst, Kayarat Saikrishnan, Mark D. Szczelkun 2015

机译：在不同方向的DNA位点之间进行长距离通讯后通过ISP型限制性修饰酶对DNA裂解进行定位
7. Machines on Genes: Enzymes that Make, Break and Move DNA and RNA [O] . Stark, WM, Luisi, BF, Bowater, RP 2010

机译：基因机器：制造，破坏和移动DNA和RNA的酶

Machines on Genes: Enzymes that Make Break and Move DNA and RNA: Maintaining a sense of direction during long-range communication on DNA

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