Protonation-Dependent Base Flipping at Neutral pH in the Catalytic Triad of a Self-Splicing Bacterial GroupII Intron

Pechlaner Maria; Donghi Daniela; Zelenay Veronika; Sigel Roland K. O.

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Protonation-Dependent Base Flipping at Neutral pH in the Catalytic Triad of a Self-Splicing Bacterial GroupII Intron

机译：自剪细菌GroupII内含子催化三联体在中性pH下质子依赖的碱基翻转

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NMR spectroscopy has revealed pH-dependent structural changes in the highly conserved catalytic domain5 of a bacterial groupII intron. Two adenines with pK(a)values close to neutral pH were identified in the catalytic triad and the bulge. Protonation of the adenine opposite to the catalytic triad is stabilized within a G(syn)-AH(+)(anti) base pair. The pH-dependent anti-to-syn flipping of this G in the catalytic triad modulates the known interaction with the linker region between domains2 and 3 (J23) and simultaneously the binding of the catalytic Mg2+ ion to its backbone. Hence, this here identified shifted pK(a)value controls the conformational change between the two steps of splicing.

机译：NMR光谱揭示了细菌II组内含子高度保守的催化结构域5中pH依赖性的结构变化。在催化三联体和凸起中鉴定出两个pK（a）值接近中性pH的腺嘌呤。与催化三联体相反的腺嘌呤的质子在G（syn）-AH（+）（anti）碱基对内稳定。此G在催化三元组中的pH依赖性反合成翻转可调节与结构域2和3（J23）之间的接头区域的已知相互作用，并同时调节催化Mg2 +离子与其骨架的结合。因此，此处确定的偏移的pK（a）值控制两个拼接步骤之间的构象变化。

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《Angewandte Chemie》 |2015年第33期|共4页
作者
Pechlaner Maria; Donghi Daniela; Zelenay Veronika; Sigel Roland K. O.;
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正文语种 eng
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groupII introns; NMR spectroscopy; ribozymes; RNA; structure-function relationships;

机译：II组内含子;核磁共振谱;核酶;RNA;结构-功能关系;

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1. Protonation-Dependent Base Flipping at Neutral pH in the Catalytic Triad of a Self-Splicing Bacterial GroupII Intron [J] . Pechlaner Maria, Donghi Daniela, Zelenay Veronika, Angewandte Chemie . 2015,第33期

机译：自剪细菌GroupII内含子催化三联体在中性pH下质子依赖的碱基翻转
2. Deletion of nonconserved helices near the 3' end of the rRNA intron of Tetrahymena thermophila alters self-splicing but not core catalytic activity. [J] . E T Barfod, T R Cech Genes & Development . 1988,第6期

机译：嗜热四膜膜虫的rRNA内含子3'末端附近的非保守螺旋的缺失会改变自剪接，但不会改变核心催化活性。
3. Unexpected abundance of self-splicing introns in the genome of bacteriophage Twort: Introns in multiple genes, a single gene with three introns, and exon skipping by group I ribozymes [J] . MARKUS LANDTHALER, DAVID A. SHUB Proceedings of the National Academy of Sciences of the United States of America . 1999,第12期

机译：噬菌体Twort基因组中自剪接内含子的异常丰富：多个基因中的内含子，具有三个内含子的单个基因，以及第I组核酶跳过外显子
4. Prediction of catalytic site of proteins based on amino acid triads approach using non parametric function [C] . Shweta Srivastava, Gautam Kumar, Tapobarata Lahiri, 2016 International Conference on Bioinformatics and Systems Biology . 2016

机译：基于非参数函数的氨基酸三元组方法预测蛋白质的催化位点
5. An evolutionary and biochemical characterization of a self-splicing group II intron and its encoded LAGLIDADG homing endonuclease in Leptographium truncatum. [D] . Mullineux, Sahra-Taylor. 2010

机译：自折叠II组内含子及其在Leptographium truncatum中编码的LAGLIDADG归巢内切核酸酶的进化和生化特性。
6. Structure of a self-splicing group II intron catalytic effector domain 5: Parallels with spliceosomal U6 RNA [O] . MAHADEVAN SEETHARAMAN, NADUKKUDY V. ELDHO, RICHARD A. PADGETT, 2006

机译：自剪裁的第II组内含子催化效应子结构域5的结构：与剪接U6 RNA平行
7. Deletion of nonconserved helices near the 3' end of the rRNA intron of Tetrahymena thermophila alters self-splicing but not core catalytic activity. [O] . E T Barfod, T R Cech 1988

机译：删除rRNA热道rRNA Intron的3'末端附近的非经常性螺旋改变了自拼接但不是核心催化活性。
8. Multiple Self-Splicing Introns in Bacteriophage T4: Evidence from Autocatalytic GTP Labeling of RNA in vitro [R] . Gott, J. M., Shub, D. A., Belfort, M. 1986

机译：噬菌体T4中的多个自剪接内含子：来自体外RNa的自催化GTp标记的证据

Protonation-Dependent Base Flipping at Neutral pH in the Catalytic Triad of a Self-Splicing Bacterial GroupII Intron

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