Type III restriction enzymes cleave DNA by long-range interaction between sites in both head-to-head and tail-to-tail inverted repeat

机译：III型限制酶通过头对头和尾对尾反向重复序列中位点之间的长距离相互作用来切割DNA

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摘要

Cleavage of viral DNA by the bacterial Type III Restriction-Modification enzymes requires the ATP-dependent long-range communication between a distant pair of DNA recognition sequences. The classical view is that Type III endonuclease activity is only activated by a pair of asymmetric sites in a specific head-to-head inverted repeat. Based on this assumption and due to the presence of helicase domains in Type III enzymes, various motor-driven DNA translocation models for communication have been suggested. Using both single-molecule and ensemble assays we demonstrate that Type III enzymes can also cleave DNA with sites in tail-to-tail repeat with high efficiency. The ability to distinguish both inverted repeat substrates from direct repeat substrates in a manner independent of DNA topology or accessory proteins can only be reconciled with an alternative sliding mode of communication.

机译：通过细菌III型限制酶修饰酶切割病毒DNA，需要远距离的DNA识别序列对之间依赖ATP的远程通讯。经典观点认为，III型核酸内切酶活性仅由特定的头对头反向重复序列中的一对不对称位点激活。基于此假设，由于III型酶中存在解旋酶结构域，已提出了多种用于交流的电机驱动的DNA易位模型。通过使用单分子和整体检测，我们证明了III型酶也可以高效切割尾端重复序列中具有位点的DNA。以独立于DNA拓扑或辅助蛋白的方式将两种反向重复底物与直接重复底物区分开的能力只能与另一种滑动交流方式协调。

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期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
Kara van Aelst; Júlia Tóth; Subramanian P. Ramanathan; Friedrich W. Schwarz; Ralf Seidel; Mark D. Szczelkun;
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作者单位

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年(卷),期 2010(107),20
年度 2010
页码 9123–9128
总页数 6
原文格式 PDF
正文语种
中图分类
关键词
diffusion helicase motor switch;

机译：扩散;解旋酶;马达;开关;

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专利

1. Type III restriction enzymes cleave DNA by long-range interaction between sites in both head-to-head and tail-to-tail inverted repeat [J] . Kara van Aelst, Julia Toth, Subramanian P. Ramanathan, Proceedings of the National Academy of Sciences of the United States of America . 2010,第20期

机译：III型限制酶通过头对头和尾对尾反向重复序列中位点之间的长距离相互作用来切割DNA
2. The Type ISP Restriction–Modification enzymes LlaBIII and LlaGI use a translocation–collision mechanism to cleave non-specific DNA distant from their recognition sites [J] . Eva ?i?áková, Fiona M. Diffin, Kara van Aelst, Nucleic acids research . 2013,第2期

机译：ISP型限制性内切酶LlaBIII和LlaGI使用易位碰撞机制切割远离识别位点的非特异性DNA
3. Unidirectional translocation from recognition site and a necessary interaction with DNA end for cleavage by Type III restriction enzyme [J] . Raghavendra NK, Rao DN Nucleic Acids Research . 2004,第19期

机译：来自识别位点的单向易位以及与DNA末端的必要相互作用，以通过III型限制酶进行切割
4. A DNA-based Computational Model Using a Specific Type of Restriction Enzyme [C] . Yasubumi Sakakibara, Hiroshi Imai DNA Computing . 2003

机译：使用特定类型的限制酶的基于DNA的计算模型
5. THE RESTRICTION ENDONUCLEASE ECO RI: ITS INTRINSIC METAL CENTER AND SPECIFIC INTERACTIONS WITH A DNA RECOGNITION SITE (PROTEIN-NUCLEIC ACID, ZINC METALLOENZYMES, INTERACTIONS CHIRAL METAL COMPLEXES, DNA-BINDING PROTEINS). [D] . PARANAWITHANA, SHANTHI R. 1986

机译：限制性内切酶Eco RI：其内在金属中心以及与DNA识别位点的特定相互作用（蛋白-核酸，锌金属酶，相互作用的手性金属络合物，DNA结合蛋白）。
6. The Type ISP Restriction–Modification enzymes LlaBIII and LlaGI use a translocation–collision mechanism to cleave non-specific DNA distant from their recognition sites [O] . Eva Šišáková, Kara van Aelst, Fiona M. Diffin, 2013

机译：ISP型限制性修饰酶LlaBIII和LlaGI使用易位碰撞机制切割远离其识别位点的非特异性DNA
7. Type III restriction enzymes cleave DNA by long-range interaction between sites in both head-to-head and tail-to-tail inverted repeat [O] . van Aelst, Kara, Tóth, Júlia, Ramanathan, Subramanian P., 2010

机译：III型限制酶通过头对头和尾对尾反向重复序列中位点之间的长距离相互作用来切割DNA

Type III restriction enzymes cleave DNA by long-range interaction between sites in both head-to-head and tail-to-tail inverted repeat

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