JBC, Vol. 250, Issue 13, 4986-4991, Jul, 1975

Conformation of complexes of thiamin pyrophosphate with divalent cations as studied by nuclear magnetic resonance spectroscopy

A. A. Gallo and H. Z. Sable

The binding of Ni-2+ and Mn-2+ to thiamin phosphate and thiamin pyrophosphate (thiamin-PP) has been compared with the binding of these ions to oxythiamin phosphate and oxythiamin pyrophosphate, analogues of thiamin in which the C-4 amino group has been replaced by an -OH group. The replacement of the NH2 group results in reduced basicity of N-1 of the pyrimidine ring of oxythiamine derivatives. The effects of pD, ligand concentration, and temperature on the binding of metal ions to N-1 have been studied by observing the metal ion-induced shifting and broadening of the C-6-H signal of these compounds. The results indicate the following: (a) the metal ion is held near N-1, resulting in a "folded" conformation, because of a favorable bonding interaction between N-1 and the metal ion rather than for general conformational reasons alone; and (b) the amount of "folded" conformation present in the different pyrophosphate complexes at neutral pH follows the order: Ni-2+-thiamin-PP greater than Mn-2+-thiamin-PP greater than Mn-2+-oxythiamin-PP and Ni-2+-oxythiamin-PP It is concluded that the strength of the metal ion-pyrimidine interaction in the "folded" conformation depends strongly both on the coordination affinity of the metal ion and on the basicity of N-1. Since the interaction of the phosphate-bound metal ion with the pyrimidine ring in the Mg-2+-thiamin-PP complex is probably weaker than the corresponding interaction in the Mn-2+-thiamin-PP complex, these results predict that the Mg-2+-thiamin-PP complex in solution, at neutral pH, exists predominantly in an "unfolded" conformation.
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