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Nitration, cytochrome

Miconazole. Miconazole nitrate [22832-87-7] (Fig. 2), the 1-phenethyl-imidazole derivative first described in 1969, interferes at low doses with the cytochrome P-450 dependent ergosterol biosynthesis in yeasts and fungi. The result is accumulation of C-14 methylated sterols on the one hand and reduction of the ergosterol levels in the membranes on the other hand (12). Analogous to clotrimazole, this leads to a disturbance in the membranes it results in inhibition of ceU repHcation, mycelium development (in C. albicans) and finally, ceU death. High concentrations of miconazole, which may be achieved with topical use, disturb the orientation of phosphoHpids in the membranes, which produces leaks (13). [Pg.253]

Hemoprroteins contain heme Hemoglobin Cytochrome e Catalase Nitrate reductase Ammonium oxidase ... [Pg.127]

Myers CR, ID Myers (1997) Cloning and sequence of cymA, a gene encoding a tetraheme cytochrome c required for reduction of iron (III), fumarate, and nitrate by Shewanella putrefaciens MR-1. J Bacteriol 179 1143-1152. [Pg.160]

The chlorate reductase has been characterized in strain GR-1 where it was found in the periplasm, is oxygen-sensitive, and contains molybdenum, and both [3Fe-4S] and [4Fe-4S] clusters (Kengen et al. 1999). The arsenate reductase from Chrysiogenes arsenatis contains Mo, Fe, and acid-labile S (Krafft and Macy 1998), and the reductase from Thauera selenatis that is specific for selenate, is located in the periplasmic space, and contains Mo, Fe, acid-labile S, and cytochrome b (Schroeder et al. 1997). In contrast, the membrane-bound selenate reductase from Enterobacter cloacae SLDla-1 that cannot function as an electron acceptor under anaerobic conditions contains Mo and Fe and is distinct from nitrate reductase (Ridley et al. 2006). [Pg.187]

Figure 18.2 Summary of respiratory energy flows. Foods ate converted into the reduced form of nicotinamide adenine dinucleotide (NADH), a strong reductant, which is the most reducing of the respiratory electron carriers (donors). Respiration can he based on a variety of terminal oxidants, such as O2, nitrate, or fumarate. Of those, O2 is the strongest, so that aerobic respiration extracts the largest amount of free energy from a given amount of food. In aerobic respiration, NADH is not oxidized directly by O2 rather, the reaction proceeds through intermediate electron carriers, such as the quinone/quinol couple and cytochrome c. The most efficient respiratory pathway is based on oxidation of ferrocytochrome c (Fe ) with O2 catalyzed by cytochrome c oxidase (CcO). Of the 550 mV difference between the standard potentials of c)Tochrome c and O2, CcO converts 450 mV into proton-motive force (see the text for further details). Figure 18.2 Summary of respiratory energy flows. Foods ate converted into the reduced form of nicotinamide adenine dinucleotide (NADH), a strong reductant, which is the most reducing of the respiratory electron carriers (donors). Respiration can he based on a variety of terminal oxidants, such as O2, nitrate, or fumarate. Of those, O2 is the strongest, so that aerobic respiration extracts the largest amount of free energy from a given amount of food. In aerobic respiration, NADH is not oxidized directly by O2 rather, the reaction proceeds through intermediate electron carriers, such as the quinone/quinol couple and cytochrome c. The most efficient respiratory pathway is based on oxidation of ferrocytochrome c (Fe ) with O2 catalyzed by cytochrome c oxidase (CcO). Of the 550 mV difference between the standard potentials of c)Tochrome c and O2, CcO converts 450 mV into proton-motive force (see the text for further details).
Fig. 6.9 The catalysts for denitrification. Nitrate is reduced by a molybdenum enzyme while nitrite and oxides of nitrogen are reduced today mainly by copper enzymes. However, there are alternatives, probably earlier iron enzymes. The electron transfer bct complex is common to that in oxidative phosphorylation and similar to the bf complex of photosynthesis, while cytochrome c2 is to be compared with cytochrome c of oxidative phosphorylation. These four processes are linked in energy capture via proton (H+) gradients see Figure 6.8(a) and (b) and the lower parts of Fig. 6.9 which show separately the active site of the all iron NO-reductase, and the active site of cytochrome oxidase (02 reductase). Fig. 6.9 The catalysts for denitrification. Nitrate is reduced by a molybdenum enzyme while nitrite and oxides of nitrogen are reduced today mainly by copper enzymes. However, there are alternatives, probably earlier iron enzymes. The electron transfer bct complex is common to that in oxidative phosphorylation and similar to the bf complex of photosynthesis, while cytochrome c2 is to be compared with cytochrome c of oxidative phosphorylation. These four processes are linked in energy capture via proton (H+) gradients see Figure 6.8(a) and (b) and the lower parts of Fig. 6.9 which show separately the active site of the all iron NO-reductase, and the active site of cytochrome oxidase (02 reductase).
Enzymes Cytochrome cdi Nitrate and Cytochrome c Peroxidase Vilmos Fulop, Nicholas J. Watmough, and Stuart J. Ferguson... [Pg.652]

In contrast to inorganic nitrate [88] or nitrite [85], which are reduced at the Mo site of XOR, organic nitrates were shown [81] to be reduced initially at the FAD site of XOR (Fig. 2.4). As discussed above, cytochrome P-450 can catalyse the same reduction and other flavoproteins, as yet unidentified, may well do the same. Indeed organic nitrates have been shown to be reduced by flavins alone [89]. [Pg.40]

Schroeder, H., Cytochrome P-450 mediates bioactivation of organic nitrates. J. Pharmacol Exp. Ther. 262 (1992), p. 298-302... [Pg.50]

Funae, Y., Okada, S., Isoforms of cytochrome P-450 on organic nitrate-derived nitric oxide release in human heart vessels. FEBS Lett. 452 (1999), p. 165-169... [Pg.50]

The marker enzymes used in this experiment are as follows vanadate-sensitive H+-ATPase (plasma membrane), nitrate-sensitive H+-ATPase or pyrophosphatase (tonoplast), TritonX-100 stimulated-UDPase or IDPase (Golgi complex), antimycin A-insensitive NADPH cytochrome c reductase (ER), and cytochrome c oxidase (mitochondria inner membrane). NADH cytochrome c reductase activity is found to be 10 times higher than NADPH cytochrome c reductase activity. Chlorophyll content can be measured as the chloroplast marker. The chlorophyll content is calculated by the following equation. Before measurement, auto zero is performed at 750 ran. [Pg.164]

Abbreviations. a-M, a-mannosidase AP, acid phosphatase as-ni-ATPase, anion-stimulated, nitrate-inhibitable ATPase CCR, NAD(P)H-dependent cytochrome oreduc-tase cs-vi-ATPase, cation-stimulated, vanadate-inhibitable ATPase, CAT, catalase GS 1/11, glucan synthase 1 or 11 IDPase, inosine diphosphatase cs-PPase, cation-stimulated pyrophosphatase RNA polymerase, DNA-dependent RNA polymerase TP-25, 25 kDa tonoplast integral protein. [Pg.175]

Fig. 9.6. Postulated mechanisms in the cytochrome P450 catalyzed reductive denitration of organic nitrates. Pathway a shows the hypothetical mechanism for the reduction of organic nitrates to organic nitrites, whereas Pathway b presents the same reaction for organic nitrites. Fig. 9.6. Postulated mechanisms in the cytochrome P450 catalyzed reductive denitration of organic nitrates. Pathway a shows the hypothetical mechanism for the reduction of organic nitrates to organic nitrites, whereas Pathway b presents the same reaction for organic nitrites.
H. Schroder, Cytochrome P450 Mediates Bioactivation of Organic Nitrates , J. Pharmacol. Exp. Ther. 1992, 262, 298-302. [Pg.600]

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See also in sourсe #XX -- [ Pg.458 , Pg.462 , Pg.470 , Pg.471 , Pg.472 ]



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Nitrate reductase cytochrome

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