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Enhanced TROSY Effect in [2‐<sup>19</sup>F, 2‐<sup>13</sup>C] Adenosine and ATP Analogs Facilitates NMR Spectroscopy of Very Large Biological RNAs in Solution

Fabian Juen, David Glänzer, Raphael Plangger, Valentina Kugler, Jakob Fleischmann, Eduard Stefan, David A. Case, Helena Kovacs, T. Kwaku Dayie, Christoph Kreutz

2024Angewandte Chemie International Edition16 citationsDOIOpen Access PDF

Abstract

Abstract Large RNAs are central to cellular functions, but characterizing such RNAs remains challenging by solution NMR. We present two labeling technologies based on [2‐ 19 F, 2‐ 13 C]‐adenosine, which allow the incorporation of aromatic 19 F‐ 13 C spin pairs. The labels when coupled with the transverse relaxation optimized spectroscopy (TROSY) enable us to probe RNAs comprising up to 124 nucleotides. With our new [2‐ 19 F, 2‐ 13 C]‐adenosine‐phosphoramidite, all resonances of the human hepatitis B virus epsilon RNA could be readily assigned. With [2‐ 19 F, 2‐ 13 C]‐adenosine triphosphate, the 124 nt pre‐miR‐17‐NPSL1‐RNA was produced via in vitro transcription and the TROSY spectrum of this 40 kDa [2‐ 19 F, 2‐ 13 C]‐A‐labeled RNA featured sharper resonances than the [2‐ 1 H, 2‐ 13 C]‐A sample. The mutual cancelation of the chemical‐shift‐anisotropy and the dipole‐dipole‐components of TROSY‐resonances leads to narrow linewidths over a wide range of molecular weights. With the synthesis of a non‐hydrolysable [2‐ 19 F, 2‐ 13 C]‐adenosine‐triphosphate, we facilitate the probing of co‐factor binding in kinase complexes and NMR‐based inhibitor binding studies in such systems. Our labels allow a straightforward assignment for larger RNAs via a divide‐and‐conquer/mutational approach. The new [2‐ 19 F, 2‐ 13 C]‐adenosine precursors are a valuable addition to the RNA NMR toolbox and will allow the study of large RNAs/RNA protein complexes in vitro and in cells.

Topics & Concepts

Nuclear magnetic resonance spectroscopyChemistrySpectroscopyRNANuclear magnetic resonancePhysicsBiochemistryStereochemistryQuantum mechanicsGeneRNA and protein synthesis mechanismsAdvanced NMR Techniques and ApplicationsDNA and Nucleic Acid Chemistry
Enhanced TROSY Effect in [2‐<sup>19</sup>F, 2‐<sup>13</sup>C] Adenosine and ATP Analogs Facilitates NMR Spectroscopy of Very Large Biological RNAs in Solution | Litcius