Millisecond phase kinetic analysis of elongation catalyzed by human, yeast, and Escherichia coli RNA polymerase.

Kireeva M; Nedialkov YA; Gong XQ

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Millisecond phase kinetic analysis of elongation catalyzed by human, yeast, and Escherichia coli RNA polymerase.

机译：人，酵母和大肠杆菌RNA聚合酶催化的延伸的毫秒级动力学分析。

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Strategies for assembly and analysis of human, yeast, and bacterial RNA polymerase elongation complexes are described, and methods are shown for millisecond phase kinetic analyses of elongation using rapid chemical quench flow. Human, yeast, and bacterial RNA polymerases function very similarly in NTP-Mg2+ commitment and phosphodiester bond formation. A "running start, two-bond, double-quench" protocol is described and its advantages discussed. These studies provide information about stable NTP-Mg2+ loading, phosphodiester bond synthesis, the processive transition between bonds, and sequence-specific effects on transcription elongation dynamics.

机译：描述了组装，分析人，酵母和细菌RNA聚合酶延伸复合物的策略，并显示了使用快速化学淬灭流进行延伸的毫秒级动力学分析的方法。人，酵母和细菌RNA聚合酶在NTP-Mg2 +承诺和磷酸二酯键形成中的功能非常相似。描述了一种“运行启动，两键，双猝灭”协议，并讨论了其优点。这些研究提供了有关稳定的NTP-Mg2 +负载，磷酸二酯键合成，键之间的进行性过渡以及对转录延伸动力学的序列特异性影响的信息。

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《Methods: A Companion to Methods in Enzymology》 |2009年第4期|共13页
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Kireeva M; Nedialkov YA; Gong XQ;
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正文语种 eng
中图分类生物化学;
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1. Millisecond phase kinetic analysis of elongation catalyzed by human, yeast, and Escherichia coli RNA polymerase. [J] . Kireeva M, Nedialkov YA, Gong XQ Methods: A Companion to Methods in Enzymology . 2009,第4期

机译：人，酵母和大肠杆菌RNA聚合酶催化的延伸的毫秒级动力学分析。
2. Properties of tRNAPhe from yeast carrying a spin label on the 3′-terminal. Interaction with yeast phenylalanyl-tRNA synthetase and elongation factor Tu from Escherichia coli [J] . Gunhild E. Siboska, Jens A. Pedersen, Mathias Sprinzl Nucleic acids research . 1978,第3期

机译：来自酵母的tRNAPhe的特性在3'-末端带有旋转标记。与酵母苯丙氨酰-tRNA合成酶和延伸因子Tu的相互作用
3. The interaction between sigmaS, the stationary phase sigma factor, and the core enzyme of Escherichia coli RNA polymerase. [J] . Colland F, Fujita N, Ishihama A, Genes to cells : . 2002,第3期

机译：σ，固定相σ因子和大肠杆菌RNA聚合酶的核心酶之间的相互作用。
4. Kinetic analysis for alternative elongation of glycosaminoglycans catalyzed by glycosyltransferase using QCM and AFM. [C] . Toshiaki MORI, Atsushi Hirose, Masanor TOhtsuka International Carbohydrate Symposium . 2013

机译：糖基转移酶QCM和AFM催化糖基转移酶催化糖胺聚糖的替代伸长率的动力学分析。
5. The geometry and topology of DNA in binary and ternary complexes with Escherichia coli RNA polymerase. [D] . Jenssen, James Robert. 2001

机译：大肠杆菌RNA聚合酶二元和三元复合物中DNA的几何结构和拓扑。
6. Millisecond phase kinetic analysis of elongation catalyzed by human yeast and Escherichia coli RNA polymerase [O] . Maria Kireeva, Yuri A. Nedialkov, Xue Qian Gong, -1

机译：人酵母和大肠杆菌RNA聚合酶催化伸长率的毫秒相动力学分析
7. Millisecond phase kinetic analysis of elongation catalyzed by human, yeast, and Escherichia coli RNA polymerase [O] . Maria Kireeva, Yuri A. Nedialkov, Xue Qian Gong, 2009

机译：人，酵母和大肠杆菌RNA聚合酶催化伸长率的毫秒相动力学分析

Millisecond phase kinetic analysis of elongation catalyzed by human, yeast, and Escherichia coli RNA polymerase.

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