PMID: 1194275Dec 10, 1975Paper

Proton magnetic relaxation studies of the interaction of D-xylose and xylitol with D-xylose isomerase. Characterization of metal-enzyme-substrate interactions

The Journal of Biological Chemistry
J M YoungA S Mildvan

Abstract

The interaction of D-xylose isomerase purified from two sources with Mn2+ and D-xylose or the competitive inhibitor xylitol has been examined by nuclear magnetic resonance. A greater paramagnetic effect of enzyme-bound Mn2+ on the alpha anomer of D-xylose than on the beta anomer was observed, providing independent evidence for the specificity of D-xylose isomerase for the alpha anomeric form of D-xylose. The exchange rate of alpha-D-xylose into the ternary complex, determined from the normalized paramagnetic contribution to the transverse relaxation rate (1/fT2p) of the carbon 1 proton of alpha-D-xylose, exceeds Vmax for the enzymatic reaction by 3 orders of magnitude. The amount of xylitol necessary to displace alpha-D-xylose from the substrate-enzyme-Mn2+ complex is consistent with the Km value for alpha-D-xylose and the inhibitor constant Ki for xylitol previously determined by the methods of enzyme kinetics. These results suggest that the NMR experiments observe complexes of D-xylose isomerase which are kinetically and thermodynamically competent to participate in catalysis. From the frequency dependence of the paramagnetic contribution to the longitudinal relaxation rate (1/T1p) of the carbon 1 proton of alpha-D-xylose, th...Continue Reading

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