C-13 MAGNETIC-RESONANCE OF CARBOXYMETHYLATED HUMAN CARBONIC ANHYDRASE-B - CHEMICAL-SHIFT AND SPIN-LATTICE RELAXATION STUDIES

We have previously prepared Nτ-carboxymethylhistidine-200 human carbonic anhydrase B using 90% [l-13C] bromoacetate and have observed the 13C NMR resonance of the enriched carboxylate now covalently attached in the active site. We report here chemical shift studies of the zinc-free carboxymethylated enzyme and its CO2+-substituted form, as well as relaxation studies of the resonance in the zinc enzyme at three frequencies (15.04, 25.15, and 90.5 MHz). The chemical shift and relaxation data are both consistent with the immobilization of the carboxylate at pH 8 and its approach or coordination to the zinc. The relaxation data indicate that lowering the pH to 5.5 leads to internal motion of the carboxymethyl moiety, consistent with the chemical shift evidence for the disruption of the proposed zinc-carboxylate coordination. Inhibitor binding at either pH 5.5 or 8.0 eliminates whatever internal motion might be present. The relaxation data have been interpreted using theoretical calculations on dipolar and chemical shift anisotropy contributions. The combined results indicate that the catalytic consequences of the carboxymethylation may be due to the proposed zinc-carboxylate coordination and need not result from the disruption of any role that histidine-200 might play in the catalytic mechanism. © 1978, American Chemical Society. All rights reserved.