UMLS:C0162473 - FACTA Search

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Query: UMLS:C0162473 (Frey)
2,599 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In ischemic and in inflamed tissues, pH levels down to 5.4 have been measured, and this local acidosis may contribute to pain and hyperalgesia in disease states. To evaluate the role of acid pH in nociception, we have studied identified primary afferents in a rat skin-saphenous nerve preparation in vitro where the receptive fields can be superfused at the highly permeable corium side with controlled solutions. The nerve endings were exposed to CO2-saturated synthetic interstitial fluid (SIF;pH 6.1) and to carbogen-gassed SIF phosphate buffered to different acid pH levels (5 min duration, 10 min intervals). Mechanical thresholds were repeatedly tested in a "blind" fashion by von Frey hair stimulation. Low-threshold mechanosensitive A beta- (n = 12) and A delta-fibers (n = 11) were not excited or sensitized by acid pH levels. In 24 of 96 nociceptor type C- and A delta-fibers, irregular low-frequency discharge with poor response characteristics was induced. However, a distinct subpopulation of mechanoheat sensitive, "polymodal" C-units (n = 25; 38%) showed stimulus-related responses increasing with proton concentration and encoding the time course of the pH change. Threshold levels were found to range from pH 6.9 to 6.1; mean maximum discharge was at pH 5.2. All such fibers responded to CO2 as well as to phosphate-buffered solution at the same pH 6.1. The CO2 responses, however, displayed significantly shorter latencies and more pronounced dynamic phases. The carboanhydrase blocker acetazolamide markedly delayed and reduced the CO2 responses. Prolonged application of acid pH (30 min) evoked nonadapting activity irrespective of oxygen supply. Many, but certainly not all, fibers sensitive to protons were also driven by capsaicin (10(-6) M, 10(-5) M) and vice versa. Repeated or prolonged treatment with low pH induced a significant and lasting decrease of the mechanical (von Frey) thresholds in almost all C-fibers tested (from 35 to 16 mN, on average), and this occurred whether or not a fiber was excited by protons. The sensitizing effect was more pronounced the higher the initial von Frey thresholds (0.75 rank correlation). This sensitization to mechanical stimulation was in contrast to the combined action of other inflammatory mediators, bradykinin, 5-HT, histamine and prostaglandin E2. In conclusion, we suggest that pH sensitivity of nociceptors may be an important source of pain and hyperalgesia.
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PMID:Protons selectively induce lasting excitation and sensitization to mechanical stimulation of nociceptors in rat skin, in vitro. 130 78

The stereochemical course of the reaction catalyzed by the EcoRV restriction endonuclease has been determined. This endonuclease recognizes GATATC sequence and cuts between the central T and dA bases. The Rp isomer of d(GACGATsATCGTC) (this dodecamer contains a phosphorothioate rather than the usual phosphate group between the central T and dA residues, indicated by the s) was a substrate for the endonuclease. Performing this reaction in H2 18O gave [18O]dps(ATCGTC) (a pentamer containing an 18O-labeled 5'-phosphorothioate) which was converted to [18O]dAMPS with nuclease P1. This deoxynucleoside 5'-[18O]phosphorothioate was stereospecifically converted to [18O]dATP alpha S with adenylate kinase and pyruvate kinase [Brody, R. S., & Frey, P. A. (1981) Biochemistry 20, 1245-1251]. Analysis of the position of the 18O in this product by 31P NMR spectroscopy showed that it was in a bridging position between the alpha- and beta-phosphorus atoms. This indicates that the EcoRV hydrolysis proceeds with inversion of configuration at phosphorus. The simplest interpretation is that the mechanism of this endonuclease involves a direct in-line attack at phosphorus by H2O with a trigonal bipyramidal transition state. A covalent enzyme oligodeoxynucleotide species can be discounted as an intermediate. An identical result has been previously observed with the EcoR1 endonuclease [Connolly, B. A., Eckstein, F., & Pingoud, A. (1984) J. Biol. Chem. 259, 10760-10763]. X-ray crystallography has shown that both of these endonucleases contain a conserved array of amino acids at their active sites. Possible mechanistic roles for these conserved amino acids in the light of the stereochemical findings are discussed.
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PMID:Stereochemical outcome of the hydrolysis reaction catalyzed by the EcoRV restriction endonuclease. 151 Sep 72

Spinach-leaf ribulose-5-phosphate kinase catalyzes the reaction of (Rp)-[beta, gamma-18O, gamma-18O]adenosine 5'-(3-thiotriphosphate) with ribulose 5-phosphate to form ribulose 1-[18O]phosphorothioate 5-phosphate. This product is incubated with CO2, Mg2+, and ribulose-bisphosphate carboxylase to form the [18O]phosphorothioate of D-glycerate. Reduction of this material using phosphoglycerate kinase/ATP, glyceraldehyde-3-phosphate dehydrogenase/NADH, triose-phosphate isomerase, and glycerol-phosphate dehydrogenase/NADH produces glycerol 3-[18O]phosphorothioate, which is subjected to ring closure using diethylphosphorochloridate. This in-line reaction produces a diastereoisomeric mixture of glycerol 2,3-cyclic phosphorothioates. 31P NMR spectroscopy was used to analyze the 18O content of the products. The anti-diastereoisomer, which is the major isomer formed and corresponds to the downfield 31P NMR signal (Pliura, D.H., Schomburg, D., Richard, J.P., Frey, P.A., and Knowles, J.R. (1980) Biochemistry 19, 325-329), retains the 18O label. This observation indicates that the ribulose-5-phosphate kinase reaction proceeds with inversion of configuration at phosphorus. The reaction is, therefore, unlikely to involve the participation of a covalent phosphoryl-enzyme intermediate.
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PMID:The stereochemical course of the ribulose-5-phosphate kinase-catalyzed reaction. 649 Jun 43

Mycoplasma gallisepticum- or M. synoviae-challenged chickens were monitored with serological assays (serum plate agglutination, hemagglutination inhibition, and enzyme-linked immunosorbent assay) and polymerase chain reaction (PCR). The tracheal swabs from M. gallisepticum-challenged chickens received three different treatments (phosphate-buffered saline [PBS], Frey's broth, or 10 mM Tris-HCl/250 mM ethylenediaminetetraacetic acid/ 2.5% sodium dodecyl sulfate [STE]) prior to DNA purification. A nonphenolic method for DNA extraction was utilized. The best PCR results were obtained with PBS swab treatment. The nonphenolic method for DNA extraction was compared with a phenolic method in an experiment with tracheal swabs from M. synoviae-challenged chickens and commercial flocks. Both methods gave comparable results.
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PMID:Polymerase chain reaction optimization for Mycoplasma gallisepticum and M. synoviae diagnosis. 871 37

Galactose-1-phosphate uridylyltransferase catalyzes the reaction of UDP-glucose with galactose 1-phosphate to form UDP-galactose and glucose 1-phosphate during normal cellular metabolism. The reaction proceeds through a double displacement mechanism characterized by the formation of a stable nucleotidylated histidine intermediate. This paper describes the preparation of the uridylyl-enzyme complex on the crystalline enzyme from Escherichia coli and its subsequent structure determination by X-ray crystallography. The refined structure has an R-factor of 19.6% (data between 65 and 1.86 A resolution) and reveals modest conformational changes at the active site compared to the inactive UMP/UDP-enzyme complex reported previously [Wedekind, J.E., Frey, P.A., & Rayment, I. (1995) Biochemistry 34, 11049-11061]. In particular, positions of the respective UMP alpha-phosphoryl groups differ by approximately 4 A. Well-defined electron density for the nucleotidylated imidazole supports the existence of a covalent bond between N epsilon 2 of the nucleophile and the alpha-phosphorus of UMP. A hydrogen bond that is conserved in both complexes between His 166 N delta 1 and the carbonyl O of His 164 serves to properly orient the nucleophile and electrostatically stabilize the positively charged imidazolium that results from nucleotidylation. Hydrogen bonds from side-chain Gln 168 to the nonbridging phosphoryl oxygens of the nucleotidyl intermediate appear crucial for the formation and reaction of the uridylyl-enzyme complex as well. The significance of the latter interaction is underscored by the fact that the predominant cause of the metabolic disease galactosemia is the mutation of the corresponding Gln (Gln 188 in humans) to Arg. A comparison to other phosphohistidyl enzymes is described, as well as a revised model for the mechanism of the uridylyltransferase.
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PMID:The structure of nucleotidylated histidine-166 of galactose-1-phosphate uridylyltransferase provides insight into phosphoryl group transfer. 879 35

In a human acid pain model, which uses continuous intradermal pressure infusion of a phosphate-buffered solution (pH 5.2) to induce localized non-adapting pain, the flow was adjusted to result in constant pain ratings of about 20% or 50% on a visual analog scale (VAS). Six volunteers in each group participated in 4 different placebo-controlled double-blind cross-over studies to measure rapidly evolving cutaneous analgesia from topically applied new ointment formulations of acetylsalicylic acid (ASA) and salicylic acid (SA) as well as of commercial ibuprofen and benzocain creams. Similar, log-linear dose-response curves were found for both ASA and SA, significant in effect at 3 g/kg and higher drug contents and reaching saturation level at 15 or 30 g/kg, respectively, which, 20 min after application, caused a mean pain suppression of 95% using ASA and 80% using SA. Half-maximal effects were achieved using 3 g/kg ASA or 15 g/kg SA. The SA action was also clearly slower to develop. With an increased flow of the acidic buffer, producing lower effective tissue pH and more intense pain, the effect of ASA and SA decreased to 73% pain suppression. A competitive mechanism of both drug effects was suggested by the fact that, with 15 g/kg ASA and SA, pain reduction could be reversed by increasing the buffer flow by a factor of 1.75, on average. Commercial ibuprofen (50 g/kg) and benzocain creams (100 g/kg) were comparably as effective as ASA and SA, but the local anesthetic caused a loss of all cutaneous sensations while the touch threshold (von Frey) under the specific analgesics was the same as under the placebo ointment. Thus, topical applications of non-steroidal anti-inflammatory drugs (NSAIDS) dissolved in different ointment formulations have proven dose-dependently effective and specific in suppressing experimental acidotic pain by a local and competitive mechanism.
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PMID:Dose-dependent competitive block by topical acetylsalicylic and salicylic acid of low pH-induced cutaneous pain. 886 48

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.
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PMID:Kinetic mechanism of UDP-hexose synthase, a point variant of hexose-1-phosphate uridylyltransferase from Escherichia coli. 969 86

Galactose-1-phosphate uridylyltransferase catalyzes the reaction of UDP-glucose with galactose 1-phosphate (Gal-1-P) to form UDP-galactose and glucose 1-phosphate (Glc-1-P) through a double displacement mechanism, with the intermediate formation of a covalent uridylyl-enzyme (UMP enzyme). Gln 168 in E. coli uridylyltransferase engages in hydrogen bonding with the phosphoryl oxygens of the UMP moiety, which is bonded to His 166 in the intermediate [Wedekind, J. E., Frey, P. A., and Rayment, I. (1996) Biochemistry 35, 11560-11569]. In humans, the point variant Q188R accounts for 60% of galactosemia cases. The corresponding E. coli variant Q168R has been overexpressed and purified. In preparation for kinetic correlation of Q168R and wild-type uridylyltransferases, we tested the kinetic competence of the wild-type UMP-enzyme. At 4 degreesC, the first-order rate constant for uridylylation by UDP-glucose is 281 +/- 18 s-1, and for deuridylylation it is 226 +/- 10 s-1 with Glc-1-P and 166 +/- 10 s-1 with Gal-1-P. Inasmuch as the overall turnover number at 4 degreesC is 62 s-1, the covalent intermediate is kinetically competent. The variant Q168R is uridylylated by UDP-glucose to the extent of about 65% of the potential active sites. Uridylylation reactions of Q168R with UDP-glucose proceed with maximum first-order rate constants of 2.2 x 10(-)4 s-1 and 4.2 x 10(-)4 s-1 at 4 and 27 degreesC, respectively. In experiments with uridylyl-Q168R and glucose-1-P, the mutant enzyme undergoes deuridylylation with maximum first-order rate constants of 4.8 x 10(-)4 s-1 and 1.68 x 10(-)3 s-1 at 4 and 27 degreesC, respectively. The value of Km for uridylylation of Q168R is slightly higher than for the wild-type enzyme, and for deuridylylation it is similar to the wild-type value. The wild-type enzyme undergoes uridylylation and deuridylyation about 10(6) times faster than Q168R. The wild-type activity in the overall reaction is 1.8 x 10(6) times that of Q168R. The wild-type enzyme contains 1.9 mol of Zn+Fe per mole of subunits, whereas the Q168R-variant contains 1.36 mol of Zn+Fe per mole of subunits. The mutation stabilizes the uridylyl-enzyme by 1.2 kcal mol-1 in comparison to the wild-type enzyme. These results show that the low activity of Q168R is not due to overstabilization of the intermediate or to the absence of structural metal ions. Instead, the main defect is very slow uridylylation and deuridylation.
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PMID:Transient kinetics of formation and reaction of the uridylyl-enzyme form of galactose-1-P uridylyltransferase and its Q168R-variant: insight into the molecular basis of galactosemia. 977 78

Galactose-1-phosphate uridylyltransferase (GalT) catalyzes the reversible transformation of UDP-glucose and galactose-1-phosphate (Gal-1-P) into UDP-galactose and glucose-1-phosphate (Glc-1-P) by a double displacement mechanism, with the intermediate formation of a covalent uridylyl-enzyme (UMP-enzyme). GalT is a metalloenzyme containing 1.2 mol of zinc and 0.7 mol of iron/mol of subunits [Ruzicka, F. J., Wedekind, J. E., Kim, J., Rayment, I., and Frey, P. A. (1995) Biochemistry 34, 5610-5617]. The zinc site lies 8 A from His 166 in active site, and the iron site lies 30 A from the active site [Wedekind,J. E., Frey, P. A., & Rayment, I. (1995) Biochemistry 34, 11049-11061]. Zinc is coordinated in tetrahedral geometry by Cys 52, Cys 55, His 115, and His 164. His 164 is part of the highly conserved active-site triad His 164-Pro 165-His 166, in which His 166 is the nucleophilic catalyst. Iron is coordinated in square pyramidal geometry with His 296, His 298, and Glu 182 in bidentate coordination providing the base ligands and His 281 providing the axial ligand. In the present study, site-directed mutagenesis, kinetic, and metal analysis studies show that C52S-, C55S-, and H164N-GalT are 3000-, 600-, and 10000-fold less active than wild-type. None of the variants formed the UMP-enzyme in detectable amounts upon reaction with UDP-Glc in the absence of Gal-1-P. Their zinc content was very low, and the zinc + iron content was about 50% of that for wild-type GalT. Mutation of His 115 to Asn 115 resulted in decreased activity to 2.9% of wild-type, with retention of zinc and iron. In contrast to the zinc-binding site, Glu 182 in the iron site is not important for enzymatic activity. The variant E182A-GalT displayed about half the activity of wild-type GalT, and all of the active sites underwent uridylylation to the UMP-enzyme, similar to wild-type GalT, upon reaction with UDP-Glc. Metal analysis showed that while E182A-GalT contained 0.9 equiv of zinc/subunit, it contained no iron. The residual zinc can be removed by dialysis with 1,10-phenanthroline, with the loss in activity being proportional to the amount of residual zinc. It is concluded that the presence of zinc is essential for maintaining GalT function, whereas the presence of iron is not essential.
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PMID:Significance of metal ions in galactose-1-phosphate uridylyltransferase: an essential structural zinc and a nonessential structural iron. 1052 16

Galactose-1-phosphate uridylyltransferase (GalT) catalyzes the reversible transformation of uridine 5'-diphosphate glucose (UDPGlc) and galactose-1-phosphate into uridine 5'-diphosphate galactose (UDPGal) and glucose-1-phosphate through a double displacement mechanism, with the intermediate formation of a covalent uridylyl-enzyme (UMP-enzyme). The covalent linkage is a phosphoramidate formed between the UMP moiety and the His 166 N(epsilon)(2) of GalT, with His 166 N(delta1) retaining a proton throughout the catalytic cycle. Cys 160 and Ser 161 in Escherichia coli GalT are engaged in hydrogen bonding with the peripheral phosphoryl oxygen atoms of the substrate in the crystalline UMP-enzyme and in the crystalline complex of H166G-GalT with UDPGlc [Wedekind, J. E., Frey, P. A., and Rayment, I. (1996) Biochemistry 35, 11560-11569; Thoden, J. B., Ruzicka, F. J., Frey, P. A., Rayment, I., and Holden, H. M. (1997) Biochemistry 36, 1212-1222]. Site-directed mutagenesis, thermodynamic, transient kinetic, and steady-state kinetic studies have been performed to investigate the roles of Cys 160 and Ser 161 in catalysis. The absence of the thiol group of Cys 160 in the variants C160S and C160A did not seriously alter the enzymatic activity. However, the variant S161A displayed 7000-fold less activity than wild-type GalT. The low activity of S161A was directly related to impaired uridylylation rate constant (3.7 x 10(-)(2) s(-)(1)) and de-uridylylation rate constant (0.5 x 10(-)(2) s(-)(1)) resulting from a higher kinetic barrier for uridylyl-group transfer by the variant S161A as compared with the wild-type GalT. Equilibrium uridylylation studies showed that neither Cys 160 nor Ser 161 was involved in stabilizing the uridylyl-enzyme intermediate. The results lead to the conclusion that the conserved Cys 160 does not play a critical role in catalysis. Ser 161 is most likely involved in donating a hydrogen bond to the beta-phosphoryl group of a substrate, thereby providing proper orientation for nucleophilic catalysis.
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PMID:Roles of two conserved amino acid residues in the active site of galactose-1-phosphate uridylyltransferase: an essential serine and a nonessential cysteine. 1082 11

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