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Enzyme
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Query: UNIPROT:P47989 (
xanthine oxidase
)
8,633
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In animals the terminal step in the pathway for degradation of sulphur-containing amino acids is the oxidation of sulphite to sulphate. This reaction is catalysed by the enzyme sulphite oxidase. The enzyme contains molybdenum and a cytochrome b5 type haem, is localized in the mitochondrial intermembrane space and transfers electrons from sulphite to cytochrome c on the inner membrane. The sulphite oxidase protein has a molecular weight of 110 000 (chicken) to 122 000 (human) and exists as a dimer of identical subunits. The haem and molybdenum cofactors are present on separate domains of the molecule. The structure of the molydbenum cofactor has not been worked out in detail, but this cofactor is known to be present in many other molybdoenzymes including
xanthine oxidase
and nitrate reductase. Three cases of genetic sulphite oxidase deficiency in humans have been reported. The three affected children displayed mental retardation, neurological abnormalities and dislocated ocular lenses. The biochemical basis for lack of enzyme activity in each case has been studied. All three have been shown to lack the sulphite oxidase protein, but in one case this appears to be secondary to a defect in synthesis of the molybdenum cofactor. Sulphite oxidase deficiency has been produced in the rat by administration of high levels of tungsten.
Sulphite
oxidase-deficient animals are particularly susceptible to the toxic effects of sulphite and atmospheric sulphur dioxide.
...
PMID:The oxidation of sulphite in animals systems. 39 60
In the presence of hydrogen peroxide (H2O2),
xanthine oxidase
has been found to catalyze
sulfur trioxide
anion radical (
SO3
.-) formation from sulfite anion (
SO3
(2-)). The
SO3
.- radical was identified by ESR (electron spin resonance) spin trapping, utilizing 5,5-dimethyl-l-pyrroline-l-oxide (DMPO) as the spin trap. Inactivated
xanthine oxidase
does not catalyze
SO3
.- radical formation, implying a specific role for this enzyme. The initial rate of
SO3
.- radical formation increases linearly with
xanthine oxidase
concentration. Together, these observations indicate that the
SO3
.- generation occurs enzymatically. These results suggest a new property of
xanthine oxidase
and perhaps also a significant step in the mechanism of sulfite toxicity in cellular systems.
...
PMID:Xanthine oxidase/hydrogen peroxide generates sulfur trioxide anion radical (SO3.-) from sulfite (SO3(2-)). 131 48
Bisulfite ion competitively inhibits
xanthine oxidase
activity. The ability of HSO3- to bind at the molybdenum center is controlled by pH due to a pKa of 6.91 for
SO3
(2-)/HSO3-. The Kd for the enzyme-bisulfite complex is 4.5 x 10(-5) M at pH 7.0 and 25 degrees C. The relative magnitude of extinction changes in the optical absorption spectra, the number of inhibitor ions reversibly bound, and the number of electrons required for complete bleaching of the visible spectrum of the milk
xanthine oxidase
-HSO3- complex were all dependent on the percentage of fully functional
xanthine oxidase
. Binding of HSO3- causes perturbations of the visible spectrum: the maximum extinction changes at 320 and 422 nm were calculated to be -4300 and -2150 M-1 cm-1, respectively. The stoichiometry of reversible binding was determined to be one molecule of HSO3-/active molybdenum center. Combined optical and EPR analyses of anaerobic dithionite titrations revealed that the relative redox potentials of the Mo6+/5+ and Mo5+/4+ couples decreased by approximately 35 and 45 mV on binding bisulfite, respectively. The finding that bisulfite has a profound effect on the redox properties of
xanthine oxidase
necessitates a re-evaluation of dithionite titrations previously carried out with this enzyme at neutral and low pH values since bisulfite produced as an oxidation product of dithionite binds to the enzyme during the course of titration.
...
PMID:The interaction of bisulfite with milk xanthine oxidase. 217 49
A study has been made of e.p.r. signals due to Mo(V) in reduced sulphite oxidase (EC 1.8.3.1) from chicken liver. Reduction by
SO3
(2-), or photochemically in the presence of a deazaflavin derivative, produces spectra indistinguishable from one another. Three types of spectra from the enzyme were distingusihed and shown to correspond to single chemical species, since they could be simulated at both 9 and 35 GHz by using the same parameters. These were the low-pH form of the enzyme, with gav. 1.9805, the high-pH form, with gav. 1.9681 and a phosphate complex, with gav. 1.9741. The low-H form shows interaction with a single exchangeable proton, with A(1H)av. (hyperfine coupling constant) = 0.98 mT, probably in the form of an MoOH group. Parameters of the signals are compared with those for signals from
xanthine oxidase
and nitrate reductase. The signal from the phosphate complex of sulphite oxidase in unique among anion complexes of Mo-containing enzymes in showing no hyperfine coupling to protons. There is no evidence for additional weakly coupled protons or nitrogen nuclei in the sulphite oxidase signals. The possibility is considered that the enzymic mechanism involves abstraction of a proton and two electrons from HSO3- by a Mo = O group in the enzyme.
...
PMID:Electron-paramagnetic-resonance parameters of molybdenum(V) in sulphite oxidase from chicken liver. 624 54
2,4,6-Trinitrobenzene sulfonic acid (TNBS) has been used in vivo to induce colitis. With the nitroreductase of intestinal cells, TNBS underwent redox cycling to produce TNBS-nitro and superoxide radical anions which are thought to be involved in initial oxidative reactions that lead to colonic injury. In this study, we demonstrated that the TNBS desulfonative reaction with tissue amino acids produces sulfite which is subsequently oxidized to sulfite radical.
Sulfite
radical was measured using a spin trapping methodology.
Sulfite
radical adducts of 5,5-dimethyl-1-pyrroline N-oxide (DMPO) or 5-diethoxyphosphoryl-5-methyl-1-pyrroline N-oxide (DEPMPO) were detected in a mixture of TNBS and lysine,
xanthine oxidase
, red blood cells, colonic mucosal or submucosal muscle tissues. TNBS alone did not produce sulfite radical, indicating that its formation required the presence of amino acids. Because sulfite radical is the precursor of highly reactive sulfiteperoxyl and sulfate radicals, our data imply that these sulfite-derived free radicals may also contribute to oxidative reactions leading to colonic injury in TNBS-induced colitis.
...
PMID:Desulfonation of a colitis inducer 2,4,6-trinitrobenzene sulfonic acid produces sulfite radical. 1057 58
