核磁共振揭示，侧翼内部环的 GU 碱基对可以采用多种结构。

Nuclear Magnetic Resonance Reveals That GU Base Pairs Flanking Internal Loops Can Adopt Diverse Structures.

机构信息

Department of Biochemistry and Biophysics , University of Rochester School of Medicine and Dentistry , Rochester , New York 14642 , United States.

Center for RNA Biology , University of Rochester School of Medicine and Dentistry , Rochester , New York 14642 , United States.

出版信息

Biochemistry. 2019 Feb 26;58(8):1094-1108. doi: 10.1021/acs.biochem.8b01027. Epub 2019 Jan 31.

DOI:10.1021/acs.biochem.8b01027

PMID:30702283

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6559796/

Abstract

RNA thermodynamics play an important role in determining the two- and three-dimensional structures of RNA. Internal loops of the sequence 5'-GMNU/3'-UNMG are relatively unstable thermodynamically. Here, five duplexes with GU-flanked 2 × 2 nucleotide internal loops were structurally investigated to reveal determinants of their instability. The following internal loops were investigated: 5'-GCAU/3'-UACG, 5'-UUCG/3'-GCUU, 5'-GCUU/3'-UUCG, 5'-GUCU/3'-UCUG, and 5'-GCCU/3'-UCCG. Two-dimensional nuclear magnetic resonance spectra indicate the absence of GU wobble base pairing in 5'-GCUU/3'-UUCG, 5'-GUCU/3'-UCUG, and 5'-GCCU/3'-UCCG. The 5'-GCUU/3'-UUCG loop has an unusual conformation of the GU base pairs, in which U's O2 carbonyl forms a bifurcated hydrogen bond with G's amino and imino protons. The internal loop of 5'-GUCU/3'-UCUG displays a shifted configuration in which GC pairs flank a U-U pair and several U's are in fast exchange between positions inside and outside the helix. In contrast, 5'-GCAU/3'-UACG and 5'-UUCG/3'-GCUU both have the expected GU wobble base pairs flanking the internal loop. Evidently, GU base pairs flanking internal loops are more likely to display atypical structures relative to Watson-Crick base pairs flanking internal loops. This appears to be more likely when the G of the GU pair is 5' to the loop. Such unusual structures could serve as recognition elements for biological function and as benchmarks for structure prediction methods.

摘要

RNA 热力学在决定 RNA 的二维和三维结构方面起着重要作用。序列 5'-GMNU/3'-UNMG 的内部环在热力学上相对不稳定。在这里，研究了五个具有 GU 侧翼的 2×2 核苷酸内部环的双链体，以揭示其不稳定性的决定因素。研究了以下内部环：5'-GCAU/3'-UACG、5'-UUCG/3'-GCUU、5'-GCUU/3'-UUCG、5'-GUCU/3'-UCUG 和 5'-GCCU/3'-UCCG。二维核磁共振谱表明，在 5'-GCUU/3'-UUCG、5'-GUCU/3'-UCUG 和 5'-GCCU/3'-UCCG 中不存在 GU 摆动碱基对。5'-GCUU/3'-UUCG 环中 GU 碱基对具有异常构象，其中 U 的 O2 羰基与 G 的氨基和亚氨基质子形成分叉氢键。5'-GUCU/3'-UCUG 的内部环显示出移位的构象，其中 GC 对侧翼 U-U 对，并且几个 U 在内环和外环之间的位置之间快速交换。相比之下，5'-GCAU/3'-UACG 和 5'-UUCG/3'-GCUU 都具有预期的侧翼内部环的 GU 摆动碱基对。显然，相对于侧翼内部环的 Watson-Crick 碱基对，侧翼内部环的 GU 碱基对更有可能显示出非典型结构。当 GU 对中的 G 位于环的 5'时，这种情况似乎更有可能发生。这种不寻常的结构可以作为生物功能的识别元件，并作为结构预测方法的基准。

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