Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.5.4 (SOR)
 720 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The biosynthesis of C-terminal alpha-amidated peptides from their corresponding C-terminal glycine-extended precursors is catalyzed by peptidylglycine alpha-amidating enzyme (alpha-AE) in a reaction that requires copper, ascorbate, and molecular oxygen. Using bifunctional type A rat alpha-AE, we have shown that O2 is the source of the alpha-carbonyl oxygen of pyruvate produced during the amidation of dansyl-Tyr-Val-[alpha-13C]-D-Ala, as demonstrated by the 18O isotopic shift in the 13C NMR spectrum of [alpha-13C]lactate generated from [alpha-13C]pyruvate in the presence of lactate dehydrogenase and NADH. In addition, one-to-one stoichiometries have been determined for glyoxylate formed/dansyl-Tyr-Val-Gly consumed, pyruvate formed/dansyl-Tyr-Val-D-Ala consumed, dansyl-Tyr-Val-NH2 formed/ascorbate oxidized, and dansyl-Tyr-Val-NH2 formed/O2 consumed. Quantitative coupling of NADH oxidation to dansyl-Tyr-Val-NH2 production using Neurospora crassa semidehydroascorbate reductase showed that two one-electron reductions by ascorbate occurred per alpha-AE turnover. The stoichiometry of approximately 1.0 dansyl-Tyr-Val-NH2 produced/ascorbate oxidized observed in the absence of a semidehydroascorbate trap resulted from the disproportionation of two semidehydroascorbate molecules to ascorbate and dehydroascorbate.
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PMID:18O isotopic 13C NMR shift as proof that bifunctional peptidylglycine alpha-amidating enzyme is a monooxygenase. 138 19

Soybean (Glycine max (L.) Merr.) root nodules contain the enzymes of the ascorbate-glutathione cycle as an important defense against activated forms of oxygen. A key enzyme in this cycle--monodehydroascorbate reductase (MR)--was purified 646-fold and appeared as a single band on SDS-PAGE with silver or Coomassie blue staining. Purified MR contained 0.7 mol FAD/mol enzyme and had a specific activity of 288 mumol NADH oxidized.min-1.mg protein-1. The enzyme was a single subunit occurring as two isozymes (MR I and MR II) with Mr values of 39,000 and 40,000. Isoelectric focusing revealed that each isozyme consisted of two forms with pl values of 4.6 to 4.7. Ferricyanide and 2,6-dichlorophenol-indophenol were effective as electron acceptors. The purified enzyme did not possess leghemoglobin reductase activity. Inhibition by p-chloromercuribenzoate indicated the involvement of a thiol group in MR activity. The Km values were 5.6, 150, and 7 microM for NADH, NADPH, and monodehydroascorbate, respectively. The pH optimum was 8 to 9. The N-terminal sequence of 10 amino acids of MR II had little homology to known protein sequences.
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PMID:Purification and characterization of monodehydroascorbate reductase from soybean root nodules. 172 43

It was found that homogeneous 11 beta-hydroxylase from bovine and porcine adrenals catalyzes the conversion of DOC to aldosterone. Mitochondria from both glomerulosa and fasciculata also convert DOC to aldosterone but glomerulosa is much more active than fasciculata. Cholate extracts of mitochondria from the two zones were equally active in converting DOC to aldosterone. Moreover all the enzyme activities of 11 beta-hydroxylase (including 18-hydroxylation and aldehyde synthetase) were precipitated by a polyclonal antibody raised in rabbit against the pure 11 beta-hydroxylase. It is concluded that in beef and pig a single adrenocortical 11 beta-hydroxylase is responsible for the synthesis of aldosterone. To determine the influence of the mitochondrial membrane from glomerulosa and fasciculata on the activities of 11 beta-hydroxylase we examined the activities of rotenone-insensitive reductase enzymes in mitochondria from the two zones. Semidehydroxyascorbate reductase and NADH-cytochrome C reductase activities are considerably more active in glomerulosa than in fasciculata mitochondria. Moreover ascorbate plus NADH (but not ascorbate alone) greatly increases the ability of malate and NADPH to support synthesis of aldosterone without affecting 11 beta- or 18-hydroxylations in mitochondria. It is proposed that maximal synthesis of aldosterone by adrenocortical mitochondria requires in addition to the usual electron transport system (NADPH- greater than ADR- greater than ADX- 11 beta-OHase) an auxilliary system in the outer mitochondrial membrane: NADH- greater than Fp- greater than cyt b- greater than semidehydroascorbate reductase.
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PMID:Synthesis of aldosterone by mitochondria and homogeneous 11 beta-hydroxylase from beef and pig. 187 73

Enzymatic systems able to reduce either dehydroascorbate or ascorbyl radical back to ascorbate by "recycling" vitamin C may contribute to lowering the nutritional requirement of it and to increase tissue antioxidant capacity. The activities of two enzymatic activities, GSH-dehydroascorbate reductase (two-electron reduction pathway) and NADH-semidehydroascorbate reductase (one-electron reduction pathway) in pig tissues, have been investigated. The activity of glutathione-dependent reduction of dehydroascorbate, although measurable, appeared negligible taking into consideration the low physiological substrate concentration. On the other hand, the one-electron reduction of ascorbyl radical resulted fast enough to slow down the consumption of the antioxidant vitamin.
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PMID:Enzymatic recycling of oxidized ascorbate in pig heart: one-electron vs two-electron pathway. 192 13

Ascorbate was maintained in the media during a long-term culture by HL-60 cells. The chemical oxidation of ascorbate was reversed in vitro by living HL-60 cells and was related to the amount of cells added. The increase of NADH concentration by lactate addition to cells was accompanied by an increase of both ascorbate regeneration and ferricyanide reduction. Further, plasma membrane enriched fractions from HL-60 cells revealed enhancement of both ascorbate regeneration and ferricyanide reduction in the presence of NADH when previously treated with detergent. The blockage of cell surface carbohydrates by wheat germ agglutinin (WGA) and Concanavalina ensiformis (Con A) lectins significantly inhibited the regeneration of ascorbate caused by the cells. These results support the idea that ascorbate is externally regenerated by the NADH-ascorbate free radical reductase as a part of the transplasma membrane redox system.
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PMID:Ascorbate is regenerated by HL-60 cells through the transplasmalemma redox system. 200 84

Changes in activities of ascorbate free radical (AFR) reductase (NADH:AFR oxidoreductase) and H2O2-dependent NADH oxidation were correlated with levels of insoluble protein in senile cataractous human lenses. The H2O2-dependent NADH oxidation activity was measured to reflect the content of free glutathione. AFR reductase activities in all the cataractous lenses assayed here tended to decrease with increase of insoluble protein contents. A similar tendency in the relationship between lens protein aggregation and H2O2-dependent NADH oxidation activities, i.e. free glutathione contents was recognized in the lenses with pale yellow, yellow or dark yellow nucleus. However, for the highest levels of insoluble protein, some of the brunescent cataractous lenses exhibited very high activities of H2O2-dependent NADH oxidation, and some brunescent lenses had very low activities. From the above results, it is suggested that lens protein aggregates in the brunescent and non-brunescent cataractous lenses may be formed through significantly different oxidation processes, respectively. The possible mechanisms such as free radical reaction and disulfide bond formation are discussed.
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PMID:Activities of ascorbate free radical reductase and H2O2-dependent NADH oxidation in senile cataractous human lenses. 237 70

The three steps in the synthesis of aldosterone (11 beta/18-hydroxylations and aldehyde synthetase) were examined in mitochondria from bovine glomerulosa and fasciculata to study the regulation of aldehyde synthetase. Ascorbate plus NADH shows synergism with malate in stimulating aldehyde synthetase without affecting 11 beta/-18-hydroxylations. The concentration of semidehydroascorbate reductase in mitochondria from glomerulosa is more than twice that from fasciculata. We propose that in glomerulosa, ascorbate provides a source of reducing equivalents that specifically support the last step in the synthesis of aldosterone.
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PMID:Ascorbate as a source of reducing equivalents for the synthesis of aldosterone. 239 91

The presence of ascorbate free radical (AFR) reductase (NADH:AFR oxidoreductase, EC 1.6.5.4) in senile cataractous human lenses was demonstrated by measuring spectrophotometrically NADH oxidation in the presence of ascorbate plus ascorbate oxidase. About 80-85% of the lens AFR reductase was probably recovered in the supernatant of the lens homogenate. Michaelis constants of the reductase were about 10 microM and less than 1 microM for AFR and NADH, respectively. We also showed that AFR reductase activities in the cataractous lenses tended to decrease with increase of insoluble lens protein contents, or showed rather the possibility that the reductase activity may have decreased before the lens protein aggregation. In the highest activity group (about 120-160 nmol NADH oxidized/min/lens), it was roughly calculated that the reductase in the lens could re-reduce immediately the total (or almost total) amount of AFR produced there by ascorbate oxidation even at a high rate of 600-800 microM/min, if NADH concentration in the lens were sufficiently maintained. The above results suggested that AFR reductase in the human lens plays important roles in ascorbate regeneration of its redox cycle, and that activity loss of AFR reductase, as well as of superoxide dismutase, glutathione peroxidase and glutathione reductase, may be responsible for the oxidative changes in lens proteins with the development of senile cataracts.
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PMID:Ascorbate free radical reductase and ascorbate redox cycle in the human lens. 318 51

Plasma membrane isolated by two-phase partition from rat liver showed rates of ascorbate free radical reduction by NADH of 4-5 nmoles of oxidized NADH/min/mg protein. This activity was inhibited 80% by ConA and up to 97% by WGA and LFA lectins. NADH-ascorbate free radical reductase was also inhibited in rat liver plasma membranes preincubated with neuraminidase or trypsin, but no additional inhibition was observed in the presence of LFA after enzyme digestion. It appears that the integrity of glucan moieities of the cell surface glycoconjugates are necessary for the optimal function of this activity that could be considered as part of the transplasma membrane electron transport system.
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PMID:Cell surface glycoconjugates control the activity of the NADH-ascorbate free radical reductase of rat liver plasma membrane. 340 83

Tissue, cellular, and subcellular distributions of OM cytochrome b-mediated NADH-semidehydroascorbate (SDA) reductase activity were investigated in rat. NADH-SDA reductase activity was found in the post-nuclear particulate fractions of liver, kidney, adrenal gland, heart, brain, lung, and spleen of rat. Liver, kidney, and adrenal gland had higher NADH-SDA reductase activity than other tissues, and OM cytochrome b-dependent activity was 60-70% of the total activity. On the other hand, almost all of the reductase activity of heart and brain cells was mediated by OM cytochrome b. The ratio of the OM cytochrome b-mediated activities of NADH-SDA reductase to rotenone-insensitive NADH-cytochrome c reductase varied among these tissues. OM cytochrome b-mediated NADH-SDA reductase and rotenone-insensitive NADH-cytochrome c reductase activities were mainly present in the parenchymal cells of rat liver. The localization of the cytochrome-mediated reductase activities in the outer mitochondrial membrane was confirmed by subfractionation of liver mitochondria. Among the submicrosomal fractions, OM cytochrome b-mediated NADH-SDA reductase activity was highest in the cis-Golgi membrane fraction, in which monoamine oxidase activity was also highest. On the other hand, OM cytochrome b-mediated rotenone-insensitive NADH-cytochrome c reductase activity showed a slightly different distribution pattern from the NADH-SDA reductase activity. Thenoyltrifluoroacetone (TTFA), a metal chelator, effectively inhibited the NADH-SDA reductase activity, though other metal chelators did not affect the activity. TTFA failed to inhibit rotenone-insensitive NADH-cytochrome c reductase activity at the concentration which gave complete inhibition of NADH-SDA reductase activity.
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PMID:Subcellular distribution of OM cytochrome b-mediated NADH-semidehydroascorbate reductase activity in rat liver. 357 Nov 84


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