In comparison to proteins and protein complexes, the size of RNA amenable to NMR studies is limited despite the development of new isotopic labeling strategies including deuteration and ligation of differentially labeled RNAs. Due to the restricted chemical shift dispersion in only four different nucleotides spectral resolution remains limited in larger RNAs. Labeling RNAs with the NMR-active nucleus 19F has previously been introduced for small RNAs up to 40 nucleotides (nt). In the presented work, we study the natural occurring RNA aptamer domain of the guanine-sensing riboswitch comprising 73 nucleotides from Bacillus subtilis. The work includes protocols for improved in vitro transcription of 2-fluoroadenosine-5â?²-triphosphat (2F-ATP) using the mutant P266L of the T7 RNA polymerase. Our NMR analysis shows that the secondary and tertiary structure of the riboswitch is fully maintained and that the specific binding of the cognate ligand hypoxanthine is not impaired by the introduction of the 19F isotope. The thermal stability of the 19F-labeled riboswitch is not altered compared to the unmodified sequence, but local base pair stabilities, as measured by hydrogen exchange experiments, are modulated. The characteristic change in the chemical shift of the imino resonances detected in a 1H,15N-HSQC allow the identification of Watsonâ??Crick base paired uridine signals and the 19F resonances can be used as reporters for tertiary and secondary structure transitions, confirming the potential of 19F-labeling even for sizeable RNAs in the range of 70 nucleotides.
[NMR paper] Biomolecular DNP-Supported NMR Spectroscopy using Site-Directed Spin Labeling.
Biomolecular DNP-Supported NMR Spectroscopy using Site-Directed Spin Labeling.
Related Articles Biomolecular DNP-Supported NMR Spectroscopy using Site-Directed Spin Labeling.
Chemistry. 2015 Sep 7;21(37):12971-7
Authors: van der Cruijsen EA, Koers EJ, Sauvée C, Hulse RE, Weingarth M, Ouari O, Perozo E, Tordo P, Baldus M
Abstract
Dynamic nuclear polarization (DNP) has been shown to greatly enhance spectroscopic sensitivity, creating novel opportunities for NMR studies on complex and large molecular assemblies in life and material...
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09-01-2015 10:48 AM
Biomolecular DNP-Supported NMR Spectroscopy using Site-Directed Spin Labeling
From The DNP-NMR Blog:
Biomolecular DNP-Supported NMR Spectroscopy using Site-Directed Spin Labeling
van der Cruijsen, E.A.W., et al., Biomolecular DNP-Supported NMR Spectroscopy using Site-Directed Spin Labeling. Chemistry – A European Journal, 2015: p. n/a-n/a.
http://dx.doi.org/10.1002/chem.201501376
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08-11-2015 02:50 AM
[NMR paper] Combining NMR and EPR to Determine Structures of Large RNAs and Protein-RNA Complexes in Solution.
Combining NMR and EPR to Determine Structures of Large RNAs and Protein-RNA Complexes in Solution.
Related Articles Combining NMR and EPR to Determine Structures of Large RNAs and Protein-RNA Complexes in Solution.
Methods Enzymol. 2015;558:279-331
Authors: Duss O, Yulikov M, Allain FH, Jeschke G
Abstract
Although functional significance of large noncoding RNAs and their complexes with proteins is well recognized, structural information for this class of systems is very scarce. Their inherent flexibility causes problems in...
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06-13-2015 11:09 PM
[NMR paper] Non-covalent spin labeling of riboswitch RNAs to obtain long-range structural NMR restraints.
Non-covalent spin labeling of riboswitch RNAs to obtain long-range structural NMR restraints.
Related Articles Non-covalent spin labeling of riboswitch RNAs to obtain long-range structural NMR restraints.
ACS Chem Biol. 2014 Mar 27;
Authors: Helmling C, Bessi I, Wacker A, Schnorr KA, Jonker HR, Richter C, Wagner D, Kreibich M, Schwalbe H
Abstract
Paramagnetic relaxation enhancement (PRE) NMR is a powerful method to study structure, dynamics and function of proteins. Up to now, the application of PRE NMR on RNAs is a significant challenge...
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03-29-2014 01:00 PM
[NMR paper] Asymmetry of 13C labeled 3-pyruvate affords improved site specific labeling of RNA for NMR spectroscopy.
From Mendeley Biomolecular NMR group:
Asymmetry of 13C labeled 3-pyruvate affords improved site specific labeling of RNA for NMR spectroscopy.
Journal of biomolecular NMR (2012). Volume: 52, Issue: 1. Pages: 65-77. Chandar S Thakur, T Kwaku Dayie et al.
Selective isotopic labeling provides an unparalleled window within which to study the structure and dynamics of RNAs by high resolution NMR spectroscopy. Unlike commonly used carbon sources, the asymmetry of (13)C-labeled pyruvate provides selective labeling in both the ribose and base moieties of nucleotides using Escherichia coli...
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10-17-2013 12:49 PM
[NMR paper] Asymmetry of 13C labeled 3-pyruvate affords improved site specific labeling of RNA for NMR spectroscopy.
From Mendeley Biomolecular NMR group:
Asymmetry of 13C labeled 3-pyruvate affords improved site specific labeling of RNA for NMR spectroscopy.
Journal of biomolecular NMR (2012). Volume: 52, Issue: 1. Pages: 65-77. Chandar S Thakur, T Kwaku Dayie et al.
Selective isotopic labeling provides an unparalleled window within which to study the structure and dynamics of RNAs by high resolution NMR spectroscopy. Unlike commonly used carbon sources, the asymmetry of (13)C-labeled pyruvate provides selective labeling in both the ribose and base moieties of nucleotides using Escherichia coli...
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08-24-2012 08:01 PM
Selective 13C labeling of nucleotides for large RNA NMR spectroscopy using an E. coli strain disabled in the TCA cycle.
Selective 13C labeling of nucleotides for large RNA NMR spectroscopy using an E. coli strain disabled in the TCA cycle.
Selective 13C labeling of nucleotides for large RNA NMR spectroscopy using an E. coli strain disabled in the TCA cycle.
J Biomol NMR. 2010 Dec;48(4):179-92
Authors: Thakur CS, Sama JN, Jackson ME, Chen B, Dayie TK
Escherichia coli (E. coli) is an ideal organism to tailor-make labeled nucleotides for biophysical studies of RNA. Recently, we showed that adding labeled formate enhanced the isotopic enrichment at protonated carbon...
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03-01-2011 12:14 PM
Selective 13C labeling of nucleotides for large RNA NMR spectroscopy using an E. coli
Selective 13C labeling of nucleotides for large RNA NMR spectroscopy using an E. coli strain disabled in the TCA cycle
Abstract Escherichia coli (E. coli) is an ideal organism to tailor-make labeled nucleotides for biophysical studies of RNA. Recently, we showed that adding labeled formate enhanced the isotopic enrichment at protonated carbon sites in nucleotides. In this paper, we show that growth of a mutant E. coli strain DL323 (lacking succinate and malate dehydrogenases) on 13C-2-glycerol and 13C-1,3-glycerol enables selective labeling at many useful sites for RNA NMR...