The use of p-fluorobenzenesulfonyl chloride as a reagent for studies of proteins by fluorine nuclear magnetic resonance.

T H Liao, K D Berlin

Index: Anal. Biochem. 148(2) , 365-75, (1985)

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Abstract

The reagent p-fluorobenzenesulfonyl chloride modifies the protein side chains of tyrosine, lysine, and histidine and the alpha-NH2 group. The p-fluorobenzenesulfonyl (Fbs-) group, identified by the 19F nuclear magnetic resonance signal, exhibits a different 19F chemical shift for each functional group modified. The Fourier-transformed spectra of the Fbs- group displayed the expected nine-line multiplet in Fbs- amino acids and simple Fbs- peptides but not in the Fbs- proteins, where the resolution was less. Lysozyme, RNase, DNase, and chymotrypsin react with this reagent and each Fbs- protein exhibits a distinctive pattern of 19F NMR signals due to the label, suggesting that the reaction of the reagent varies with the reactivity of the side chains in a protein. The three major 19F signals of the unfolded Fbs-RNase in 8 M urea are due to the Fbs- label on the imidazolium, alpha-NH2, and epsilon-NH2 groups. Based upon results from amino acid and 19F NMR analyses of the tryptic-chymotryptic peptides of Fbs-RNase, portions of the imidazolium and epsilon-NH2 resonances were assigned to the Fbs- label on His-105 and Lys-41, respectively, while the alpha-NH2 resonance was entirely due to the Fbs- label on the alpha-NH2 of Lys-1. Because Fbs-RNase has an unchanged, near-ultraviolet circular dichroism spectrum and because it retains approximately 80% of the RNase activity, the conformation of Fbs-RNase is probably not altered from the folded conformation of the native enzyme. Upon unfolding in 8 M urea or heating at 70 degrees C, Fbs-RNase gave a 19F NMR spectrum differing from that of the folded Fbs-RNase. In the presence of uridylic acid, Lys-41 was the only residue protected from modification by the reagent with a concomitant reduction of the epsilon-NH2 resonance, and the RNase thus modified was fully active. Hence, 19F NMR analysis of protein, via the reaction with p-fluorobenzenesulfonyl chloride, provided not only information about the protein conformation but also direct measurements of the modification status.