Survey of catalytic residues and essential roles of glutamate-alpha170 and aspartate-alpha335 in coenzyme B12-dependent diol dehydratase.

The importance of each active-site residue in adenosylcobalamin-dependent diol dehydratase of Klebsiella oxytoca was estimated using mutant enzymes in which one of the residues interacting with substrate and/or K(+) was mutated to Ala or another amino acid residue. The Ealpha170A and Dalpha335A mutants were totally inactive, and the Halpha143A mutant showed only a trace of activity, indicating that Glu-alpha170, Asp-alpha335, and His-alpha143 are catalytic residues. The Qalpha141A, Qalpha296A, and Salpha362A mutants showed partial activity. It was suggested from kinetic parameters that Gln-alpha296 is important for substrate binding and Gln-alpha296 and Gln-alpha141 for preventing the enzyme from mechanism-based inactivation. The Ealpha221A, Ealpha170H, and Dalpha335A did not form the (alphabetagamma)(2) complex, suggesting that these mutations indirectly disrupt subunit contacts. Among other Glu-alpha170 and Asp-alpha335 mutants, Ealpha170D and Ealpha170Q were 2.2 +/- 0.3% and 0.02% as active as the wild-type enzyme, respectively, whereas Dalpha335N was totally inactive. Kinetic analysis indicated that the presence and the position of a carboxyl group in the residue alpha170 are essential for catalysis as well as for the continuous progress of catalytic cycles. It was suggested that the roles of Glu-alpha170 and Asp-alpha335 are to participate in the binding of substrate and intermediates and keep them appropriately oriented and to function as a base in the dehydration of the 1,1-diol intermediate. In addition, Glu-alpha170 seems to stabilize the transition state for the hydroxyl group migration from C2 to C1 by accepting the proton of the spectator hydroxyl group on C1.