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Query: UMLS:C0162473 (
Frey
)
2,599
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The reversible reaction of UDP-glucose with imidazole (Im) to produce uridine 5'-phoshoimidazolate (UMPIm) and glucose-1-P is catalyzed by UDP-
hexose
synthase, which is the mutant H166G of
hexose
-1-P uridylyltransferase (EC 2.7.7.12) [Kim, J., Ruzicka, F.J., &
Frey
, P.A. (1990) Biochemistry 29, 10590-10593]. The availability of UDP-
hexose
synthase allows the equilibrium constant for the reaction UDP-glucose + Im = UMPIm + glucose-1-P to be measured, and it is found to be 2.2 x 10(-2) at pH 8.5 and 27 degrees C. At pH 7.0 and 27 degrees C the equilibrium constant is 6.4 x 10(-4). The equilibrium constant for the formation of the covalent uridylyl-enzyme intermediate of
hexose
-1-P uridylyltransferase (E-His(166) + UDP-glucose = E-His(166)-UMP + glucose-1-P) is found to be 1.8 x 10(-4) at pH 7.0 and 25 degrees C, which is slightly less favorable than the formation of UMPIm from UDP-glucose and Im. These equilibrium constants, when considered in the light of other data in the literature, allow the standard free energy changes for the hydrolysis of UMPIm and the analogous covalent uridylyl-enzyme intermediate to be calculated. The results show that delta G' degrees (delta G degrees (ph)(7.0)) for the hydrolyses of UMPIm and E-His(166)-UMP are -14.7 and -15.4 kcal mol(-1), respectively at pH 7.0. At pH 8.5, the corresponding values of delta G degrees (ph) (8.5) are -12.6 and -9.9 kcal mol(-1), respectively. It is concluded that noncovalent binding interactions between the active site and the UMP group of E-His(166)-UMP provide little or no stabilization in the formation of this species as an intermediate in the reaction of
hexose
-1-P uridylyltransferase.
...
PMID:Standard free energies for uridylyl group transfer by hexose-1-P uridylyltransferase and UDP-hexose synthase and for the hydrolysis of uridine 5'-phosphoimidazolate. 863 92
Galactose-1-phosphate (galactose-1-P) uridylyltransferase from Escherichia coli catalyzes the interconversion of UDP-glucose and galactose-1-P with UDP-galactose and glucose-1-P by a double-displacement mechanism through a uridylyl-enzyme intermediate, in which the uridine-5'-phosphoryl group is covalently bonded to Nepsilon of His 166. The point variant H166G displays a UDP-
hexose
synthase activity, in that it catalyzes the reaction of uridine 5'-phosphoimidazolide (UMPIm) with glucose-1-P to form UDP-glucose and imidazole. Inasmuch as the wild-type uridylyltransferase catalyzes its cognate reaction with ping-pong kinetics, an intrinsically ordered substrate binding mechanism, the kinetic mechanism of the UDP-
hexose
synthase activity of H166G became of interest. The synthase activity follows sequential kinetics [Kim, J., Ruzicka, F., and
Frey
, P. A. (1990) Biochemistry 29, 10590-10593]. In this work, product inhibition patterns for the synthase activity of H166G indicate random equilibrium binding of substrates. Comparison of the synthase activities of the variants H166G and H166A showed that the glycine variant is about 340- and 600-fold more active than the alanine variant in the forward and reverse directions, respectively. The kinetic consequences of varying the amino acid at position 166 were largely kcat effects, with more modest Km effects. Comparison of the synthase activities of these variants with that of the wild-type enzyme in the production of glucose-1-P showed that the loss of the beta-carbon of His 166 in the complex H166G-UMPIm increases the activation energy for uridylyl group transfer by 2.4 kcal mol-1, and the presence of two additional hydrogen atoms in the complex H166A-UMPIm increases the activation energy by 6.2 kcal mol-1. It is concluded that the active site is much less tolerant of additional steric bulk in the locus of the beta-carbon of His 166 than it is of the loss of the beta-carbon. The sensitivities to additional steric bulk around other positions of the His 166-imidazole ring are much less severe, as indicated by the reactivities of methylated analogues of UMPIm in the synthase reaction of H166G. Uridine 5'-phospho-N-methylimidazolide is more reactive as a synthase substrate than UMPIm, and this is attributed to the positive charge of the imidazole ring. The fact that the imidazole ring of the wild-type covalent uridylyl-enzyme retains its proton and is positively charged is supported by the pH-rate profile for hydrolysis of the intermediate.
...
PMID:Kinetic mechanism of UDP-hexose synthase, a point variant of hexose-1-phosphate uridylyltransferase from Escherichia coli. 969 86
