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Query: EC:1.17.3.2 (
xanthine oxidase
)
8,383
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
xanthine oxidase
reaction causes a co-oxidation of NH3 to NO2-, which was inhibitable by superoxide dismutase, catalase, hydroxyl radical scavengers, or by the chelating agents, desferrioxamine or diethylene triaminepentaacetic acid. Hydroxylamine was oxidized to NO2- much more rapidly than was NH3, and in this case superoxide dismutase or the chelating agents inhibited but catalase or the HO. scavengers did not. Hydrazine was not detectably oxidized to NO2-, and NO2- was not oxidized to NO3-, by the
xanthine oxidase
reaction. These results are accommodated by a reaction scheme involving (a) the metal-catalyzed production of HO. from O2- + H2O2; (b) the oxidation of H3N to
H2N
. by OH.; (c) the coupling of
H2N
. with O2- to yield peroxylamine, which hydrolyzes to hydroxylamine plus H2O2; (d) the metal-catalyzed oxidation of HO-NH2 to (Formula: see text), which couples with O2- to yield (Formula: see text), which finally dehydrates to yield NO2-.
...
PMID:The co-oxidation of ammonia to nitrite during the aerobic xanthine oxidase reaction. 383 96
Tourniquet ischemia will influence the biochemical milieu of tissue cells and affect the metabolism of purines in skeletal muscle distal to the occlusion. At reperfusion, generation of oxygen radicals by the
hypoxanthine-xanthine oxidase
system may ensue, influencing white blood cell and thrombocyte aggregation, causing damage to the endothelial cell barrier and inducing non-reflow type phenomena.
Amide
-type local anaesthetics are known to affect local vasotone, leukocyte adherence and platelet function but the influence of lidocaine on purine metabolite washout and platelet aggregation following tourniquet ischemia for lower limb surgery is not known in detail. Therefore, the effects of regional intravenous lidocaine during tourniquet ischemia for knee surgery on purine catabolite washout and platelet function following reflow were assessed. Eight patients served as control (C-group) and 8 (L-group) received 100 ml of lidocaine (2.5 mg/ml) in the emptied venous bed of the leg to be operated. All patients had spinal anaesthesia (0.5% bupivacaine). Effluent venous blood from the leg and radial arterial blood was collected and analysed for xanthine (X), hypoxanthine (HX), base excess (BE), pH and potassium before and after reperfusion. Platelet ADP-induced aggregation (ADP-agg.) and secretion of beta-thromboglobulin (beta-TG) were measured in the effluent blood as well as systemically. After tourniquet release (TR), X and HX were significantly increased in effluent venous blood but the washout was enhanced in the L-group during the initial reperfusion phase. BE was significantly higher in the L-group both before and after TR whereas pH and potassium washout was comparable between the groups. No systemic effects on platelets were detected after tourniquet release but ADP-agg. in effluent venous blood was attenuated in 6 out of 8 patients in the L-group (NS). It is concluded that HX and X are generated during leg ischemia. Regional intravenous lidocaine, most probably through a vasodilatory mechanism and inhibition of white blood cell activation, may attenuate non-reflow phenomena and thereby exert beneficial effects on post-ischemic recovery by enhancing post-ischemic tissue reperfusion.
...
PMID:Purine metabolite washout and platelet aggregation at reflow after tourniquet ischemia: effect of intravenous regional lidocaine. 860 8
Nickel superoxide dismutase (NiSOD) is a mononuclear nickel-containing metalloenzyme that catalyzes the disproportionation of superoxide by cycling between NiII and NiIII oxidation states. In the reduced NiII oxidation state, the metal center is ligated by two cysteinate sulfurs, one amide nitrogen, and one amine nitrogen (from the N-terminus), while in the oxidized NiIII state, an imidazole nitrogen coordinates to the metal center. Herein, we expand on a previous report in which we described a functional metallopeptide-based NiSOD model compound [NiII(SODM1)] (SODM1 =
H2N
-HCDLPCGVYDPA-COOH) by exploring how acylation of the N-terminus (producing [NiII(SODM1-Ac)]) influences the properties of the metallopeptide. Titration results, GPC data, and mass-spectrometry data demonstrate that NiII coordinates to SODM1-Ac in a 1:1 ratio, while variable pH studies show that NiII coordination is strong at a pH of 7.5 and above but not observed below a pH of 6.2. This is higher than [NiII(SODM1)] by approximately 1.0 pH unit consistent with bisamide ligation. Ni K-edge XAS demonstrates that the NiII center is coordinated in a square-planar NiN2S2 coordination environment with Ni-N distances of 1.846(4) A and Ni-S distances of 2.174(3) A. Comparison of the electronic absorption and CD spectrum of [NiII(SODM1)] versus [NiII(SODM1-Ac)] in conjunction with time-dependent DFT calculations suggests a decrease in Ni covalency in the acylated versus unacylated metallopeptide. This decrease in covalency was also supported by DFT calculations and Ni L-edge XAS. [NiII(SODM1-Ac)] has a quasireversible NiII/NiIII redox couple of 0.49(1) V vs Ag/AgCl, which represents a -0.2 V shift compared with [NiII(SODM1)], while the peak separation suggests a change in the coordination environment upon oxidation (i.e., axial imidazole ligation). Using the xanthine/
xanthine oxidase
assay, we determine that [NiII(SODM1-Ac)] is less active than [NiII(SODM1)] by over 2 orders of magnitude (IC50 = 3(1) x 10-5 vs 2(1) x 10-7 M). Possible reasons for the decrease in activity are discussed.
...
PMID:The influence of amine/amide versus bisamide coordination in nickel superoxide dismutase. 1717 10
