DrugBank:EXPT00568 - FACTA Search

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Query: DrugBank:EXPT00568 (ascorbate)
23,072 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat liver mitochondria were found to hydroxylate epsilon-N-trimethyl-L-lysine to produce beta-hydroxy-epsilon-N-trimethyl-L-lysine, an intermediate in carnitine biosynthesis. The hydroxylating system requires alpha-ketoglutarate, Fe2+, and ascorbate, but does not require NADPH nor NADH. No activity was found in the microsomal or soluble fractions of liver extracts. The hydroxylated alpha-amino acid was isolated and characterized by column chromatography using Dowex 50-H+ and Chelex 100-Cu2+ resins and by high voltage paper electrophoresis. The enzymatically produced beta-hydroxy-epsilon-N-trimethyl-L-lysine was shown to be periodate-sensitive and one periodation product was characterized as gamma-butyrobetaine aldehyde. The hydroxylated product was acted upon by crystalline serine transhydroxymethylase (EC 2.1.2.1) to yield gamma-butyrobetaine aldehyde and glycine. Conversion of about 40% of the epsilon-N-trimethyl-L-lysine to beta-hydroxy-epsilon-N-trimethyl-L-lysine was accomplished by this system with little or no further metabolism.
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PMID:Carnitine biosynthesis. beta-Hydroxylation of trimethyllysine by an alpha-ketoglutarate-dependent mitochondrial dioxygenase. 62 63

Hepatic submitochondrial particles, prepared at neutral pH from rats pretreated with glucagon, exhibited stimulated rates of State 3 and uncoupled respiration when succinate or NADH were the substrates, but not when ascorbate plus N,N,N',N'-tetramethyl-p-phenylenediamine were employed. Measurements of 8-anilino-1-naphthalenesulfonic acid fluorescence in the particles indicated that glucagon treatment resulted in a stimulation of energization supported by succinate respiration or ATP hydrolysis. Similarly, the energy-linked pyridine nucleotide transhydrogenase and reverse electron flow reactions driven by succinate oxidation or ATP were also stimulated. The results indicate that mitochondrial substrate transport is not the prime locus of glucagon action. It is suggested that the increased level of energization in particles prepared from glucagon-treated rats is a reflection of a stimulation of the respiratory chain, possibly between cytochromes b and c, and the ATP-forming reactions.
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PMID:Glucagon treatment stimulates the metabolism of hepatic submitochondrial particles. 64 75

A method for the isolation of coupled mitochondria from the acellular slime mould Physarum polycephalum is described. The mitochondria oxidize respiratory substrates at rates comparable to those of mitochondria from other microorganisms and show similar responses to respiratory inhibitors. ADP/O values approach similar values to those obtained with mitochondria from higher organisms: 3 with NAD-linked substrates, 2 with succinate, and 1 with ascorbate-TMPD. Mitochondria actively take up low concentrations of Ca2+ with stimulation of their respiration. With succinate or pyruvate-malate as substrates respiratory responses are depressed by Ca2+ concentrations in excess of 200 micron in the presence or absence of phosphate. Exogenous NADH is unique in supporting the uptake of large amounts of Ca2+ in the presence of phosphate and in showing an unusual 'uncoupled' response in the absence of phosphate. A sigmoidal relationship occurs between initial velocity of Ca2+ uptake and Ca2+ concentration with a maximum velocity of approx. 15 nmol/s per mg protein and half maximum velocity occurring at approx. 50 micron Ca2+.
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PMID:The isolation of coupled mitochondria from Physarum polycephalum and their response to Ca2+. 75 41

Membrane vesicles from the menaquinone-deficient Bacillus subtilis aro D contain a low content of menaquinone and consequently oxidaze reduced nicotinamide adenine dinucleotide (NADH) at low rate. Supplementation of the membrane vesicles suspension with the menaquinone-analogue menadione, results in an incorporation of menadione in the membranes. The incorporated menadione increases with the external menadione concentration up to a maximum of 7 nmol of menadione bound per mg membrane protein. The NADH oxidase activity of the membrane vesicles increases linearly with the menadione content and a 35-fold stimulation is obtained in fully reconstituted membrane vesicles; this maximal NADH oxidase activity is about two-fold higher than the NADH oxidase activity in membrane vesicles from wild-type B.subtilis W23. Supplementation of membrane vesicles from B.subtilis W23 with menadione also results in a stimulation of the NADH oxidase activity but only a stimulation of 1.6-fold is maximally obtained. The NADH oxidase activities in reconstituted B.subtilis aro D and B.subtilis W23 membrane vesicles are similarly affected by respiratory chain inhibitors, indicating that menadione occupies physiological sites of menaquinone. NADH and the non-physiological electron donor ascorbate + phenazine methosulphate are the best energy sources for active amino acid transport in membrane vesicles from B.subtilis W23. Membrane vesicles from B.subtilis aro D accumulate amino acids in the presence of acorbate + phenazine methosulphate, but not with NADH. However, membrane vesicles from this mutant, reconstituted with menadione, demonstrate NADH-driven transport activity. This activity increases linearly with the NADH oxidase activity, but maximal transprt activities are reached under conditions where the NADH oxidase activity is not yet maximal. These results indicate that the rate of energy supply is the limiting factor for transport at low NADH oxidase activities and that the transport system itself becomes the limiting factor for transport at low NADH oxidase activities and that the transport system itself becomes the limiting factor under conditions of high NADH oxidase activities. Under energy-limiting conditions 135-235 molecules of NADH have to be oxidized in order to transport one molecule of amino acid. At all levels of energy supply a competition by the different amino acid transport systems for the available energy could not be observed. These observations indicate that only a fraction of the energy, generated by the respiratory chain, is used for the transport of an amino acid and that the bulk of the energy dissipates via other channels in the membrane vesicles.
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PMID:Reconstitution of reduced nicotinamide adenine dinucleotide oxidase activity with menadione in membrane vesicles from the menaquinone-deficient Bacillus subtilis aro D. Relation between electron transfer and active transport. 82 14

1. The properties of oleoyl-CoA desaturase, induced in microsomal fractions by the 'ageing' treatment of potato tuber slices (aeration of slices for 3-18 h), were investigated to study the effect of cyanide on desaturation and cycloheximide on the induction of the desaturase. 2. The electrons needed for the desaturation can be supplied either by NADH or NADPH, but ascorbate can also drive the reaction; experiments with CO suggested that cytochrome P-450 was not involved in the desaturation. 3. A strong inhibition of the desaturation by potassium cyanide was observed with each of the electron donors; total inhibition was noticed with 1 mM KCN; low concentrations (0.1 mM) caused 50% inhibition of the desaturation. 5. The variation of the oleoyl-CoA desaturase activity during the ageing process and the drop in this activity in aged slices treated by cycloheximide indicate that the enzyme undergoes an active turnover.
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PMID:Cyanide sensitivity and induction of the microsomal oleoyl-CoA desaturase of potato tuber. 85 42

Eight species of bacteria representing rod, coccus, gram-positive, and gram-negative forms were tested for their sensitivity to sodium chloride during freezing and thawing. Six of the eight species tested were salt-sensitive, though to different degrees, while Lactobacillus casei and Streptococcus faecalis were resistant. Escherichia coli grown anaerobically exhibited only 38% of the salt sensitivity of aerobically grown cells. Analysis of cytochrome pigments in the organisms revealed that the six sensitive organisms all contained these pigments but in varying amounts, while the two resistant ones were devoid of them. Anaerobically grown E. coli contained 50% of the cytochromes of aerobically grown cells. A relationship between cytochrome content of the organisms and salt sensitivity during freezing and thawing was demonstrated with a correlation coefficient of 0.76 (P less than 0.05); the higher the cytochrome content, the more salt-sensitive the organism. This indicated that 58% of the salt sensitivity was due to the cytochrome content. Using a model organism E. coli, the effect of salt during freezing and thawing on the respiratory activity was examined. Freezing and thawing in water or saline decreased the respiration by whole cells of substrates expected to be NAD-linked while NADH-stimulated respiration was increased. In cell-free extracts derived from unfrozen cells or those frozen and thawed in water or saline, the respiration of ascorbate plus N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD) was constant. The respiration of NADH, succinate, and lactate in cell-free extracts derived from cells frozen and thawed in saline was reduced compared with those extracts derived from unfrozen cells or cells frozen and thawed in water. Studies with E. coli showed that the decreased respiratory activity caused by disruptions in the electron-transport chain could not account for the salt sensitivity on freezing and thawing. More likely, salt sensitivity is related to the presence of bonds between cytochromes and other membrane components which are disrupted by sodium chloride on freezing and thawing. This would then result in loss of membrane integrity and function.
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PMID:Relationship of cytochrome content to the sensitivity of bacteria to NaCl on freezing and thawing. 86 47

Effect of steroid hormones on peroxidation of lipids of rats' liver endoplasmic reticulum was studied. Accumulation of peroxidation products was measured by the change in chemoluminescence intensity and by the rate of malone dealdehydeformation. It was shown that typical antioxidants--estrogenes were the inhibitors of NADH-H and ascorbate-dependent systems of lipid peroxidation in rat liver microsomes, the enzymatic system being the most sensitive one.
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PMID:[Alteration of lipid peroxidation of rat liver endoplasmic reticulum in the presence of steroid hormones]. 91 23

The protein-bound sulfhydryl (SH) groups of the mitochondrial membrane were determined with Ellman's reagent in energized and non-energized configurational states of mitochondria and submitochondrial particles. When beef heart mitochondria were energized by respiration, there was a decrease in titratable protein-bound SH groups which varied according to substrate: NADH-linked substrates induced a decrease of about 10 nmol per mg of protein,succinate about 7, and ascorbate-tetramethyl-p-phenylene-diamine about 3. Similar changes occurred in phosphorylating submitochondrial particles. A decrease in SH titer was also observed in non-energized conditions, induced by hypotonic treatment and by some reagents inhibiting electron transport and oxidative phosphorylation and inducing orthodox configuration. These changes in protein-bound SH groups might be useful in analyzing the conformational states of mitochondrial membranes.
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PMID:Mitochondrial sulfhydryl groups. A possible endogenous probe of conformational changes in the mitochondrial membrane. 91 87

The interrelationships among the processes of progesterone biosynthesis, respiration and energy production in human term placental mitochondria were examined. All substrates (citrate, isocitrate, alpha-ketoglutarate, succinate, fumarate, malate, glutamate, glycerol 3-phosphate, ascorbate + N,N,N',N'-tetramethyl-p-phenylenediamine) previously found to stimulate oxygen uptake and ATP synthesis in placental mitochondria supported progesterone synthesis from endogenous and exogenous cholesterol. Citrate support of progesterone synthesis was stimulated by NADP+ but not NAD+. It was inhibited by fluorocitrate and trans-aconitate but not by arsenite, rotenone, antimycin, cyanide or 2,4-dinitrophenol. Ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine support of progesterone synthesis was stimulated by NAD+ and NADP+ and was inhibited by ADP, rotenone, antimycin, cyanide and 2,4-dinitrophenol. Cyanide inhibition was relieved by an exogenous ATP regenerating system and ADP inhibition was reversed by oligomycin. Progesterone synthesis supported by alpha-ketoglutarate + malonate was stimulated by NAD+ and NADP+, and was completely inhibited by arsenite. 2,4-Dinitrophenol was strongly inhibitory both in the absence and presence of rotenon or antimycin. Stimulation by ATP was enhanced by rotenon, antimycin and oligomycin and inhibited by 2,4-dinitrophenol. Thus, metabolic control of progesterone synthesis by the energy status of the mitochondrial system was demonstrated when reducing equivalents were supplied via NADH or the respiratory electron transport chain.
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PMID:Mitochondria from human term placenta. III. The role of respiration and energy generation in progesterone biosynthesis. 92 26

1. In the presence of dihydroxyfumarate, horseradish peroxidase catalyses the conversion of p-coumaric acid into caffeic acid at pH 6. This hydroxylation is completely inhibited by superoxide dismutase. 2. Dihydroxyfumarate cannot be replaced by ascorbate H2O2, NADH, cysteine or sulphite. Peroxidase can be replaced by high (10 mM) concentrations of FeSO4, but this reaction is almost unaffected by superoxide dismutase. 3. Hydroxylation by the peroxidase/dihydroxyfumarate system is completely inhibited by low concentrations of Mn2+ or Cu2+. It is proposed that this is due to the ability of these metal ions to react with the superoxide radical O2--. 4. Hydroxylation is partially inhibited by mannitol, Tris or ethanol and completely inhibited by formate. This seems to be due to the ability of these reagents to react with the hydroxyl radical -OH. 5. It is concluded that O2-- is generated during the oxidation of dihydroxyfumarate by peroxidase and reacts with H2O2 to produce hydroxyl radicals, which then convert p-coumaric acid into caffeic acid.
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PMID:Hydroxylation of p-coumaric acid by horseradish peroxidase. The role of superoxide and hydroxyl radicals. 94 69

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