Incorporation of 19F into proteins allows for the study of their molecular interactions via NMR. The study of 19F labeled aromatic amino acids has largely focused on 4-,5-, or 6-fluorotryptophan, 4-fluorophenylalanine, (4,5, or 6FW) or 3-fluorotyrosine (3FY), whereas 2-fluorotyrosine (2FY) has remained largely understudied. Here we report a comparative analysis with different fluorinated amino acids. We first report the NMR chemical shift responsiveness of five aromatic amino acid mimics to changes in solvent polarity and find that the most responsive, a mimic of 3FY, has a 2.9-fold greater change in chemical shift compared to the other amino acid mimics in aprotic solvents including the 2FY mimic. We also probed the utility of 2FY for 19F NMR by measuring its NMR relaxation properties in solution and the chemical shift anisotropy (CSA) of a polycrystalline sample of the amino acid by magic angle spinning. Using protein-observed fluorine NMR (PrOF NMR), we compared the influence of 2FY and 3FY incorporation on stability and pKa perturbation when incorporated into the KIX domain of CBP/p300. Lastly, we investigated the 19F NMR response of both 2FY and 3FY-labeled proteins to a proteinâ??protein interaction partner, MLL, and discovered that 2FY can report on allosteric interactions that are not observed with 3FY-labeling in this protein complex. The reduced perturbation to pKa and similar but reduced CSA of 2FY to 3FY supports 2FY as a suitable alternative amino acid for incorporation into large proteins for 19F NMR analysis.
Lanthanoid tagging via an unnatural amino acid for protein structure characterization
Lanthanoid tagging via an unnatural amino acid for protein structure characterization
Abstract
Lanthanoid pseudo-contact shift (PCS) provides long-range structural information between a paramagnetic tag and protein nuclei. However, for proteins with native cysteines, site-specific attachment may only utilize functional groups orthogonal to sulfhydryl chemistry. Here we report two lanthanoid probes, DTTA-C3-yne and DTTA-C4-yne, which can be conjugated to an unnatural amino acid pAzF in the target protein via azide-alkyne cycloaddition. Demonstrated...
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[NMR paper] Amino Acid Selective Unlabeling in Protein NMR Spectroscopy.
Amino Acid Selective Unlabeling in Protein NMR Spectroscopy.
Related Articles Amino Acid Selective Unlabeling in Protein NMR Spectroscopy.
Methods Enzymol. 2015;565:167-189
Authors: Prasanna C, Dubey A, Atreya HS
Abstract
Three-dimensional structure determination of proteins by NMR requires the acquisition of multidimensional spectra followed by assignment of chemical shifts to the respective nuclei. In order to speed up this process, resonances corresponding to individual amino acid types are often selectively identified...
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11-19-2015 05:22 PM
Paramagnetic relaxation enhancement of membrane proteins by incorporation of the metal-chelating unnatural amino acid 2-amino-3-(8-hydroxyquinolin-3-yl)propanoic acid (HQA)
Paramagnetic relaxation enhancement of membrane proteins by incorporation of the metal-chelating unnatural amino acid 2-amino-3-(8-hydroxyquinolin-3-yl)propanoic acid (HQA)
Abstract
The use of paramagnetic constraints in protein NMR is an active area of research because of the benefits of long-range distance measurements (>10Â*Ã?). One of the main issues in successful execution is the incorporation of a paramagnetic metal ion into diamagnetic proteins. The most common metal ion tags are relatively long aliphatic chains attached to the side chain of a...
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11-28-2014 11:37 AM
[NMR paper] Three-dimensional structure and mimetic-membrane association of consensus 11-amino-acid motif from soybean lea3 protein.
Three-dimensional structure and mimetic-membrane association of consensus 11-amino-acid motif from soybean lea3 protein.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--media.wiley.com-assets-2250-98-WileyOnlineLibrary-Button_120x27px_FullText.gif Related Articles Three-dimensional structure and mimetic-membrane association of consensus 11-amino-acid motif from soybean lea3 protein.
Biopolymers. 2012;98(1):59-66
Authors: Xue R, Liu Y, Zheng Y, Wu Y, Li X, Pei F, Ni J
Abstract
The occurrence of a highly conserved 11-mer repeating...
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02-03-2013 10:19 AM
Generation of Pseudocontact Shifts in Protein NMR Spectra with a Genetically Encoded Cobalt(II)-Binding Amino Acid.
Generation of Pseudocontact Shifts in Protein NMR Spectra with a Genetically Encoded Cobalt(II)-Binding Amino Acid.
Generation of Pseudocontact Shifts in Protein NMR Spectra with a Genetically Encoded Cobalt(II)-Binding Amino Acid.
Angew Chem Int Ed Engl. 2011 Jan 17;50(3):692-4
Authors: Nguyen TH, Ozawa K, Stanton-Cook M, Barrow R, Huber T, Otting G
[NMR paper] Determinants of protein hyperthermostability: purification and amino acid sequence of
Determinants of protein hyperthermostability: purification and amino acid sequence of rubredoxin from the hyperthermophilic archaebacterium Pyrococcus furiosus and secondary structure of the zinc adduct by NMR.
Related Articles Determinants of protein hyperthermostability: purification and amino acid sequence of rubredoxin from the hyperthermophilic archaebacterium Pyrococcus furiosus and secondary structure of the zinc adduct by NMR.
Biochemistry. 1991 Nov 12;30(45):10885-95
Authors: Blake PR, Park JB, Bryant FO, Aono S, Magnuson JK, Eccleston E, Howard...
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[NMR paper] Determinants of protein hyperthermostability: purification and amino acid sequence of
Determinants of protein hyperthermostability: purification and amino acid sequence of rubredoxin from the hyperthermophilic archaebacterium Pyrococcus furiosus and secondary structure of the zinc adduct by NMR.
Related Articles Determinants of protein hyperthermostability: purification and amino acid sequence of rubredoxin from the hyperthermophilic archaebacterium Pyrococcus furiosus and secondary structure of the zinc adduct by NMR.
Biochemistry. 1991 Nov 12;30(45):10885-95
Authors: Blake PR, Park JB, Bryant FO, Aono S, Magnuson JK, Eccleston E, Howard...
2-Fluorotyrosine is a valuable but understudied amino acid for protein-observed 19 F NMR
Linear Mode
