Through-Space Scalar 19F-19F Couplings between Fluorinated Noncanonical Amino Acids for the Detection of Specific Contacts in Proteins
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Orton, Henry
Qianzhu, Haocheng
Abdelkader, Elwy
Habel, Edan
Yi Jiun, Tan
Frkic, Rebecca
Jackson, Colin
Huber, Thomas
Otting, Gottfried
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American Chemical Society
Abstract
Fluorine atoms are known to display scalar 19F−19F
couplings in nuclear magnetic resonance (NMR) spectra when they
are sufficiently close in space for nonbonding orbitals to overlap. We
show that fluorinated noncanonical amino acids positioned in the
hydrophobic core or on the surface of a protein can be linked by scalar
through-space 19F−19F (TSJFF) couplings even if the 19F spins are in
the time average separated by more than the van der Waals distance.
Using two different aromatic amino acids featuring CF3 groups, O-
trifluoromethyl-tyrosine and 4-trifluoromethyl-phenylalanine, we show
that 19F−19F TOCSY experiments are sufficiently sensitive to detect
TSJFF couplings between 2.5 and 5 Hz in the 19 kDa protein PpiB
measured on a two-channel 400 MHz NMR spectrometer with a regular room temperature probe. A quantitative J evolution experiment enables the measurement of TSJFF coupling constants that are up to five times smaller than the 19F NMR line width. In addition, a new aminoacyl-tRNA synthetase was identified for genetic encoding of N6-(trifluoroacetyl)-L-lysine (TFA-Lys) and 19F−19F TOCSY peaks were observed between two TFA-Lys residues incorporated into the proteins AncCDT-1 and mRFP despite high solvent exposure and flexibility of the TFA-Lys side chains. With the ready availability of systems for site-specific incorporation of fluorinated amino acids into proteins by genetic encoding, 19F−19F interactions offer a straightforward way to probe the spatial proximity of selected sites without any assignments of 1H NMR resonances.
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J. Am. Chem. Soc. 2021, 143, 19587−19598
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