19F NMR‐Based Fragment Screening for 14 Different Biologically Active RNAs and 10 DNA and Protein Counter‐Screens

We report here the nuclear magnetic resonance 19F screening of 14 RNA targets with different secondary and tertiary structure to systematically assess the druggability of RNAs. Our RNA targets include representative bacterial riboswitches that naturally bind with nanomolar affinity and high specific...

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Veröffentlicht in:	Chembiochem : a European journal of chemical biology 2021-01, Vol.22 (2), p.423-433
Hauptverfasser:	Binas, Oliver, Jesus, Vanessa, Landgraf, Tom, Völklein, Albrecht Eduard, Martins, Jason, Hymon, Daniel, Kaur Bains, Jasleen, Berg, Hannes, Biedenbänder, Thomas, Fürtig, Boris, Lakshmi Gande, Santosh, Niesteruk, Anna, Oxenfarth, Andreas, Shahin Qureshi, Nusrat, Schamber, Tatjana, Schnieders, Robbin, Tröster, Alix, Wacker, Anna, Wirmer‐Bartoschek, Julia, Wirtz Martin, Maria Alexandra, Stirnal, Elke, Azzaoui, Kamal, Richter, Christian, Sreeramulu, Sridhar, José Blommers, Marcel Jules, Schwalbe, Harald
Format:	Artikel
Sprache:	eng
Schlagworte:	19F Acridine Affinity Binding Biological activity Deoxyribonucleic acid DNA FBS fluorine fragment-based screening Low molecular weights Metabolites Molecular weight NMR Nuclear magnetic resonance Protein structure Proteins Ribonucleic acid Riboswitches RNA Screening Screens Tertiary structure
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creator	Binas, Oliver Jesus, Vanessa Landgraf, Tom Völklein, Albrecht Eduard Martins, Jason Hymon, Daniel Kaur Bains, Jasleen Berg, Hannes Biedenbänder, Thomas Fürtig, Boris Lakshmi Gande, Santosh Niesteruk, Anna Oxenfarth, Andreas Shahin Qureshi, Nusrat Schamber, Tatjana Schnieders, Robbin Tröster, Alix Wacker, Anna Wirmer‐Bartoschek, Julia Wirtz Martin, Maria Alexandra Stirnal, Elke Azzaoui, Kamal Richter, Christian Sreeramulu, Sridhar José Blommers, Marcel Jules Schwalbe, Harald
description	We report here the nuclear magnetic resonance 19F screening of 14 RNA targets with different secondary and tertiary structure to systematically assess the druggability of RNAs. Our RNA targets include representative bacterial riboswitches that naturally bind with nanomolar affinity and high specificity to cellular metabolites of low molecular weight. Based on counter‐screens against five DNAs and five proteins, we can show that RNA can be specifically targeted. To demonstrate the quality of the initial fragment library that has been designed for easy follow‐up chemistry, we further show how to increase binding affinity from an initial fragment hit by chemistry that links the identified fragment to the intercalator acridine. Thus, we achieve low‐micromolar binding affinity without losing binding specificity between two different terminator structures. Checking out RNA druggability by NMR: Fourteen RNAs have been screened and ten DNA and proteins were counter‐screened to show that fragment libraries can differentiate between different RNA targets with up to 15‐fold selectivity.
doi_str_mv	10.1002/cbic.202000476
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subjects	19F Acridine Affinity Binding Biological activity Deoxyribonucleic acid DNA FBS fluorine fragment-based screening Low molecular weights Metabolites Molecular weight NMR Nuclear magnetic resonance Protein structure Proteins Ribonucleic acid Riboswitches RNA Screening Screens Tertiary structure
title	19F NMR‐Based Fragment Screening for 14 Different Biologically Active RNAs and 10 DNA and Protein Counter‐Screens
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