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Flavin mechanisms

Covalently Bound Flavins. The FAD prosthetic group in mammalian succinate dehydrogenase was found to be covalently affixed to protein at the 8 a-position through the linkage of 3-position of histidine (102,103). Since then, several covalently bound riboflavins (104,105) have been found successively from the en2ymes Hsted in Table 3. The biosynthetic mechanism, however, has not been clarified. [Pg.80]

Lanosterol biosynthesis begins with the selective conversion of squalene to its epoxide, (35)-2,3-oxidosqualene/ catalyzed by squalene epoxidase. Molecular 02 provides the source of the epoxide oxygen atom, and NADPH is required, along with a flavin coenzyme. The proposed mechanism involves... [Pg.1084]

Figure 27.13 Proposed mechanism of the oxidation of squalene by flavin hydroperoxide. Figure 27.13 Proposed mechanism of the oxidation of squalene by flavin hydroperoxide.
Like the examples above, dihydroxyacetanilide epoxidase (DHAE) uses an olefin as the substrate for epoxidation. Its mechanism, however, is fundamentally different from those of cytochrome P450 or flavin-dependent enzymes. Dihydroxyacetanilide is an intermediate in the biosynthesis of the epoxyquinones LL-C10037a, an antitumor agent produced by the actinomycete Streptomyces LL-C10037 [75, 76], and MM14201, an antibiotic produced by Streptomyces MPP 3051 (Scheme 10.20) [77]. The main structural difference between the two antibiotics lies in the opposite stereochemistry of the oxirane ring. [Pg.376]

Eberhard, A., and Hastings, J. W. (1972). A postulated mechanism for the bioluminescent oxidation of reduced flavin mononucleotide. Biochem. Biophys. Res. Commun. 47 348-353. [Pg.393]

Eckstein, J. W., and Ghisla, S. (1991). On the mechanism of bacterial luciferase. 4a,5-Dihydroflavins as model compounds for reaction intermediates. In Flavins Flavoproteins, Proc. Int. Symp., 10th, 1990, 269-272. [Pg.393]

An additional component is the iron-sulfur protein (FeS nonheme iron) (Figure 12-6). It is associated with the flavoproteins (metallofiavoproteins) and with cytochrome b. The sulfur and iron are thought to take part in the oxidoreduction mechanism between flavin and Q, which involves only a single e change, the iron atom undergoing oxidoreduction between Fe " and Fe k... [Pg.92]

Gorlatova N, M Tchorzewski, T Kurihara, K Soda, N Esaki (1998) Purification, characterization, and mechanism of a flavin mononucleotide-dependent 2-nitropropane dioxygenase from Neurospora crassa. Appl Environ Microbiol 64 1029-1033. [Pg.138]

The assessment of clearance is complicated by the numerous mechanisms by which compounds may be cleared from the body. These mechanisms include oxidative metabolism, most commonly by CYP enzymes, but also in some cases by other enzymes including but not limited to monoamine oxidases (MAO), flavin-containing monooxygenases (FMO), and aldehyde oxidase [45, 46], Non-oxidative metabolism such as conjugation or hydrolysis may be effected by enzymes such as glucuronyl transferases (UGT), glutathione transferases (GST), amidases, esterases, or ketone reductases, as well as other enzymes [47, 48], In addition to metabolic pathways, parent compound may be excreted directly via passive or active transport processes, most commonly into the urine or bile. [Pg.155]

Scheme 2 Mechanism of repair of cyclobutane pyrimidine dimers (CPD) by a CPD photolyase. 8-HDF 8-hydroxy-5-deazaflavin, ET electron transfer. FADH reduced and de-protonated flavin-coenzyme... Scheme 2 Mechanism of repair of cyclobutane pyrimidine dimers (CPD) by a CPD photolyase. 8-HDF 8-hydroxy-5-deazaflavin, ET electron transfer. FADH reduced and de-protonated flavin-coenzyme...
A current overall picture of the reaction mechanism of xanthine oxidase, which differs substantially from one proposed earlier (87) is as follows. The enzyme is presumed to have two independent catalytic units, though this has not so far been proved rigorously. Reducing substrates are bound at molybdenum and reduce this from Mo(VI) both to Mo(V) and to Mo (IV). Reducing equivalents are then transferred by intramolecular reactions from molybdenum to iron-sulphur and also, either directly or via this, to flavin. Oxidizing substrates as a class, seem capable of reacting with all three types of centre in the enzyme. Thus, oxygen reacts predominantly with flavin, phenazine methosulphate... [Pg.138]

The possible mechanisms of inhibition of flavin by (—)-deprenyl, as an irreversible acetylenic inhibitor, were studied by ab initio methods with the 6-31G basis set using simplified model compounds, 3-formyl-2-imino-l-hydroxypyrazine, and propargylamine. The formation of two energetically stable cyclic adducts, the 0,N adduct 286 and a C,N adduct, was shown <1999THA147>. [Pg.298]

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See also in sourсe #XX -- [ Pg.315 ]



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