Towards Structural Genomics of RNA: Rapid NMR Resonance Assignment and Simultaneous RNA Tertiary Structure Determination Using Residual Dipolar Couplings.

Al Hashimi HM; Gorin A; Majumdar A; Gosser Y; Patel DJ

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Towards Structural Genomics of RNA: Rapid NMR Resonance Assignment and Simultaneous RNA Tertiary Structure Determination Using Residual Dipolar Couplings.

机译：迈向RNA的结构基因组学：快速NMR共振分配和使用残留偶极耦合的同时RNA三级结构测定。

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We report a new residual dipolar couplings (RDCs) based NMR procedure for rapidly determining RNA tertiary structure demonstrated on a uniformly (15)N/(13)C-labeled 27 nt variant of the trans-activation response element (TAR) RNA from HIV-I. In this procedure, the time-consuming nuclear Overhauser enhancement (NOE)-based sequential assignment step is replaced by a fully automated RDC-based assignment strategy. This approach involves examination of all allowed sequence-specific resonance assignment permutations for best-fit agreement between measured RDCs and coordinates for sub-structures in a target RNA. Using idealized A-form geometries to model Watson-Crick helices and coordinates from a previous X-ray structure to model a hairpin loop in TAR, the best-fit RDC assignment solutions are determined very rapidly (

机译：我们报告了一个新的基于残留偶极偶合（RDCs）的NMR程序，用于快速确定从HIV的反式激活元件（TAR）RNA的均匀（15）N /（13）C标记的27 nt变体上证明的RNA三级结构-一世。在此过程中，将基于费时的核Overhauser增强（NOE）的顺序分配步骤替换为基于RDC的全自动分配策略。此方法涉及检查所有允许的序列特异性共振分配排列，以确保测量的RDC与目标RNA中亚结构的坐标之间的最佳契合。使用理想的A型几何结构对Watson-Crick螺旋进行建模，并根据先前的X射线结构进行坐标以对TAR中的发夹环进行建模，可以非常迅速地确定最佳拟合RDC分配解决方案（少于五分钟的计算时间），并且与相应的基于NOE的分配完全一致。源自RDC的方向约束可同时用于将子结构组装成RNA三级构象。通过提高应用速度和减少对化学位移分散的依赖，这种基于RDC的方法为在结构基因组学背景下快速确定RNA构象奠定了基础，并可能增加可以通过NMR检查的RNA的大小限制。（c）2002爱思唯尔科学有限公司。

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《Journal of Molecular Biology》 |2002年第3期|共13页
作者
Al Hashimi HM; Gorin A; Majumdar A; Gosser Y; Patel DJ;
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正文语种 eng
中图分类分子生物学;
关键词
RNA; Nuclear Magnetic Resonance; Research Diagnostic Criteria; Genomics; 核磁共振;

机译：RNA;Nuclear Magnetic Resonance;Research Diagnostic Criteria;Genomics;核磁共振;

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1. Towards Structural Genomics of RNA: Rapid NMR Resonance Assignment and Simultaneous RNA Tertiary Structure Determination Using Residual Dipolar Couplings. [J] . Al Hashimi HM, Gorin A, Majumdar A, Journal of Molecular Biology . 2002,第3期

机译：迈向RNA的结构基因组学：快速NMR共振分配和使用残留偶极耦合的同时RNA三级结构测定。
2. Mg(2+)-induced Variations in the Conformation and Dynamics of HIV-1 TAR RNA Probed Using NMR Residual Dipolar Couplings. [J] . Al Hashimi HM, Pitt SW, Majumdar A, Journal of Molecular Biology . 2003,第5期

机译：Mg（2+）诱导的使用NMR残留偶极耦合的HIV-1 TAR RNA的构象和动力学变化。
3. Refined Solution Structure of the Iron-responsive Element RNA Using Residual Dipolar Couplings. [J] . McCallum SA, Pardi A Journal of Molecular Biology . 2003,第4期

机译：使用残留偶极联结精炼铁反应性元素RNA的溶液结构。
4. Algorithms and Analytic Solutions Using Sparse Residual Dipolar Couplings for High-Resolution Automated Protein Backbone Structure Determination by NMR [C] . Anna Yershova, Chittaranjan Tripathy, Pei Zhou, Algorithmic foundations of robotics IX . 2010

机译：使用稀疏残留偶极联轴器的高分辨率自动核磁共振蛋白质骨架结构测定算法和解析解
5. Development and structural application of NMR methods for the measurement of residual dipolar couplings and phosphorus-31 chemical shift anisotropy in RNA, using ribosomal helix-35 psi(746) as a model molecule. [D] . O'Neil-Cabello, Erin. 2004

机译：使用核糖体螺旋-35 psi（746）作为模型分子，用于测量RNA中残留偶极偶合和磷31化学位移各向异性的NMR方法的开发和结构应用。
6. Major Groove Width Variations in RNA Structures Determined by NMR and Impact of 13C residual chemical shift anisotropy and 1H-13C residual dipolar coupling on refinement [O] . Blanton S Tolbert, Yasuyuki Miyazaki, Shawn Barton, -1

机译：通过NMR确定的RNA结构的主要凹槽宽度变化和13C残余化学移位各向异性和1H-13C残留的偶极耦合对细化的影响
7. Determination of Population-Weighted Dynamic Ensembles of RNA Using NMR Residual Dipolar Couplings. [O] . Yang Shan 2014

机译：用核磁共振残留偶极耦合法测定RNa的群体加权动态集合。
8. Method of Using G-Matrix Fourier Transformation Nuclear Magnetic Resonance (GFT NMR) Spectroscopy for Rapid Chemical Shift Assignment and Secondary Structure Determination of Protein. [R] . Szyperski, T. A., Kim, S., Atreya, H. S. 2004

机译：利用G基质傅里叶变换核磁共振（GFT NmR）光谱法快速化学位移分配和蛋白质二级结构测定的方法。

Towards Structural Genomics of RNA: Rapid NMR Resonance Assignment and Simultaneous RNA Tertiary Structure Determination Using Residual Dipolar Couplings.

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