Use of 6-fluoroderivatives of pyridoxal and pyridoxal phosphate in the study of the coenzyme function in glycogen phosphorylase.

6-Fluoropyridoxal phosphate (6-FPLP) has been synthesized. Its properties were studied, and it was used, along with 6-fluoropyridoxal (6-FPAL), to reconstitute apophosphorylase b. Kinetic studies of the resulting enzymes showed that phosphorylases reconstituted with 6-FPLP and 6-FPAL have characteristics similar to those of native and pyridoxal enzymes, respectively, except that the former two enzymes have lower Vmax values. 19F NMR and UV spectra of 6-FPLP phosphorylase showed that the coenzyme forms a neutral enolimine Schiff base. Because the UV and fluorescence spectra of 6-FPLP phosphorylase are comparable to those obtained with native phosphorylase, it further confirms the postulate that pyridoxal phosphate forms a neutral enolimine Schiff base in phosphorylase. The results suggest that the 3-OH group is protonated and the pyridine nitrogen unprotonated in both 6-FPLP phosphorylase and native enzyme. 19F NMR study of 6-FPLP- and 6-FPAL-reconstituted phosphorylases in the inactive and active states indicates that the protein structure near the coenzyme binding site undergoes certain changes when these enzymes are activated by the substrates and AMP. The comparison of the properties of 6-FPLP-reconstituted and native phosphorylases implies that the ring nitrogen of the coenzyme PLP in phosphorylase may interact with the protein during catalysis, and this interaction is important for efficient catalysis by phosphorylase.