Interaction of phosphorylase b with eosin. Influence of substrate and effectors on eosin-enzyme complexes.

The interactions of rabbit muscle glycogen phosphorylase b with Eosin (2',4',5',7'-tetrabromofluorescein) was studied. Eosin was found to be an effective inhibitor of the enzyme. The inhibition constants for the dye were estimated to be approx. 36 and 60 microM with respect to AMP and glucose 1-phosphate respectively. The binding of Eosin to phosphorylase b is accompanied by a red-shift of about 12 nm in the dye absorption-spectrum maximum, indicating low-polarity binding sites on the enzyme molecule for the dye. The absorbance in the difference absorption maximum at 537 nm was utilized to follow the conjugation of phosphorylase b with Eosin. Scatchard plots of the titration data revealed the existence of at least two classes of binding sites on the protein molecule for Eosin, and the dissociation constants measured in Tris/HCl buffer, pH 7.0 (IO.091), were 7.7 and 41.7 microM respectively. The influence of the substrates and effectors on Eosin-enzymes complexes was used to study the ligand-phosphorylase b interactions. IMP displaced the dye completely from the enzyme, indicating that there are two IMP-binding sites per phosphorylase b monomer. AMP binding to the enzyme with respect to Eosin concentration is of two types: a non-competitive one for the high-affinity site for AMP and a competitive one for the low-affinity site for the activator. The effects of glucose 6-phosphate, ATP, Pi and glycerol 2-phosphate in the system are in according dance with a partially competitive model. Glucoes 1-phosphate and UDP-glucose appear to affect only the high-affinity site for Eosin, whereas glucose and glycogen have no effect on Eosin-phosphorylase b complexes. Our results suggest that Eosin can be used as an efficient optical probe for studying the phosphorylase b system.