Proton nuclear magnetic resonance studies of histidine residues in rat and other rodent pancreatic ribonucleases. Effects of pH and inhibitors

Proton nuclear magnetic resonance spectra of the histidine residues in bovine and rat ribonuclease have been compared. The changes in chemical shift on titration and on binding of cytidine-3′-monophosphate and cytidine-2′-monophosphate have been followed. In the presence of the cytidine derivatives the spectra of both enzymes resemble each other more than those of the free enzymes. With these inhibitors, two histidines in rat ribonuclease exhibit the same pK values and shifts as the active site residues histidine 12 and 119 in the bovine enzyme. Their pK values in the inhibitor-free rat enzyme are about 0.4 higher than in the beef enzyme, which can be explained by the substitution at the entrance of the active site cleft of arginine 39 in the beef enzyme by serine in the rat enzyme. Rat ribonuclease contains one histidine with a rather high pK value of 7.6. The cytidine derivatives affect its chemical shift in exactly the same way as the shift of histidine 48 in bovine ribonuclease. The high pK value of this residue in rat ribonuclease can be explained by assuming a strong hydrogen bridge with glutamic acid 16. The other two histidines in rat ribonuclease have rather low pK values of 6.1 and 6.3. The histidine with a pK value of 6.3 has been assigned to position 105 and that with a pK value of 6.1 to position 73.The closer resemblance of the active sites of bovine and rat ribonuclease in the presence of inhibitors than in the inhibitor-free enzymes makes the concept of induced fit interesting from an evolutionary point of view.The characteristic downfield shift of the protonated form of histidine 119 in the complexes of bovine and rat ribonuclease with cytidine-3′-monophosphate is not observed with uridine-3′-monophosphate, suggesting non-identical binding of these pyrimidine nucleotides.Some preliminary results on the nuclear magnetic resonance properties of the histidine residues in coypu and chinchilla pancreatic ribonuclease have been obtained.