Nuclear magnetic relaxation study on the interaction of glycyl-L-tyrosine with manganese-carboxypeptidase A in solution.

The spin-lattice and spin-spin relaxation rates were measured of the Gly C alpha and Tyr aryl protons of glycyl-L-tyrosine (Gly-Tyr) bound to manganese(II)-substituted carboxypeptidase A (MnCPA) in aqueous solution. The temperature and frequency dependences of the relaxation rates were analyzed using the Solomon-Bloembergen-Morgan equations. The binding modes of MnCPA with Gly-Tyr in solution are different from that of ZnCPA in crystals. 1. Mn(II)-coordinated water of MnCPA is not excluded by the binding of Gly-Tyr substrate molecules. 2. The Gly carbonyl group does not coordinate tightly to the metal ion of MnCPA. The Gly C alpha protons of Gly-Tyr in the productive binding site are appreciably mobile. 3. A non-productive loose binding of another Gly-Tyr molecule is suggested by simulation of the temperature and frequency dependences of the proton relaxation rates.