1982 Volume 91 Issue 2 Pages 599-606
P1, P2-bis (5'-pyridoxal) diphosphate crosslinks between the original cofactor (pyridoxal 5'-phosphate) linking residue and Lys-573 in rabbit muscle phosphorylase (Shimomura, S., Nakano, K., & Fukui, T. (1978) Biochem. Biophys. Res. Commun. 82, 462-468). We have applied the same technique to potato phosphorylase to compare the structures of the active-site regions of the two enzymes, which have different regulatory properties. The reagent was bound to the potato enzyme in the same binding mode as to the rabbit muscle enzyme. A sequence study on the potato enzyme labeled with this reagent revealed that it crosslinks between the original cofactor-linking lysyl residue and another lysyl residue, respectively corresponding to Lys-679 and Lys-573 in the rabbit muscle enzyme, and that the sequence Lys-573 to Leu-577 in the rabbit muscle enzyme is conserved in the potato enzyme. These findings indicate structural similarities in the active-site region between the phosphorylases, and suggest the importance of a lysyl residue in the catalytic mechanism of the phosphorylase reaction.