Hydrogen peroxide, reaction with peroxidase

Other solutions to dealing with interferences in the detection of H O have included the use of a copperfll) diethyldithiocarbamate precolumn to oxidize the sample before it reaches the immobilized enzyme, as well as the use of a palladium/gold sputtered electrode which catalyzes the oxidation of hydrogen peroxide In addition, peroxidase has been used to catalyze the reaction between hydrogen peroxide and iodide ferrocyanide and organo-fluorine compounds Am-... 

For example, peroxidase catalyzes the reaction of luminol derivatives with hydrogen peroxide and results in an increase of the CL reaction velocity and CL intensity. Therefore, intense CL can be obtained from the analyte labeled with luminol derivatives after HPLC separation, followed by reaction with peroxidase. 

Other than for the monooxygenases, a two-electron acceptor such as hydrogen peroxide is required as the terminal oxidant for peroxidases. In the so-called resting state the Fe ion is situated in the oxidation state +3. Reaction with hydrogen peroxide proceeds with loss of water and yields a ferryl(IV) radical cation called Compound I,... 

The excess conjugate is washed out, hydrogen peroxide substrate with chromogen is added and reacts with the bound peroxidase producing a blue color. This enzymatic reaction is stopped by the addition of a stopping solution and the resulting yellow color is measured. The resultant color intensity is proportional to the concentration of HBeAg in the sample. 

Figure 7. Liquid Phase Inverse Gated Decoupled NMR Spectrum of Product Mixture from Reaction of N-labelled Aniline with Peroxidase and Hydrogen Peroxide. (Reaction blank).

Hemoglobin and myoglobin in their ferric forms show rudimentary peroxidatic and catalatic activity, but ferrous peroxidase does not combine reversibly with molecular oxygen. Ionic iron also gives the hydrogen peroxide reactions but not the combination with oxygen. 

Catalase was found to form an intermediate compound in the presence of hydrogen peroxide (Chance, 69). The spectrum was measured from 380-430 nqi and is slightly shifted toward the visible as compared with free catalase. The complex shows no similarities to cyan-catalase or the compound formed when peroxide is added to azide catalase. Its formation is very rapid, the bimolecular velocity constant having a value of about 3 X 107 M.-1 sec.-1. In the absence of added hydrogen donors, the complex decomposes slowly according to a first order reaction with a velocity constant of about 0.02 sec.-1. This catalase complex thus resembles the green primary hydrogen peroxide complex of peroxidase. 

After on-line dialysis of the milk sample, lactose is oxidized in the galactose oxidase reactor with release of hydrogen peroxide. The latter is detected by amperometric reduction of a mediator, oxidized by hydrogen peroxide in a peroxidase catalyzed reaction. The linear range of the method with 20 injection is in the range 0.05-300 mM. 

The reactions of the lactoperoxidase-hydrogen peroxide complexes with ascorbic acid and with p3rrogallol were investigated by Chance (95) and allow us to compare the h values of two different peroxidases with the same donor. Some of the rate constants of the peroxidase-HtOt S3rstems are listed in Table IX. 

In the most common method for chemiluminescent immunoassay (GLIA), after the immunological reaction and any necessary separation steps, the labeled compounds or complexes react with an oxidizer, eg, hydrogen peroxide, and an enzyme, eg, peroxidase, or a chelating agent such as hemin or metal... 

Reaction takes place ia aqueous solution with hydrogen peroxide and catalysts such as Cu(II), Cr(III), Co(II), ferricyanide, hernia, or peroxidase. Chemiluminescent reaction also takes place with oxygen and a strong base ia a dipolar aprotic solvent such as dimethyl sulfoxide. Under both conditions Qcis about 1% (light emission, 375—500 am) (105,107). 

A method of detecting herbicides is proposed the photosynthetic herbicides act by binding to Photosystem II (PS II), a multiunit chlorophyll-protein complex which plays a vital role in photosynthesis. The inhibition of PS II causes a reduced photoinduced production of hydrogen peroxide, which can be measured by a chemiluminescence reaction with luminol and the enzyme horseradish peroxidase (HRP). The sensing device proposed combines the production and detection of hydrogen peroxide in a single flow assay by combining all the individual steps in a compact, portable device that utilises micro-fluidic components. 

One of the most used systems involves use of horseradish peroxidase, a 3-diketone (mosl commonly 2,4-pentandione), and hydrogen peroxide." " " Since these enzymes contain iron(II), initiation may involve decomposition of hydrogen peroxide by a redox reaction with formation of hydroxy radicals. However, the proposed initiation mechanism- involves a catalytic cycle with enzyme activation by hydrogen peroxide and oxidation of the [3-diketone to give a species which initiates polymerization. Some influence of the enzyme on tacticity and molecular... 

Figure 15.11 Possible scheme for the formation of free radicals from the metabolism of dopamine. Normally hydrogen peroxide formed from the deamination of DA is detoxified to H2O along with the production of oxidised glutathione (GSSG) from its reduced form (GSH), by glutathione peroxidase. This reaction is restricted in the brain, however, because of low levels of the peroxidase. By contrast the formation of the reactive OH-radical (toxification) is enhanced in the substantia nigra because of its high levels of active iron and the low concentration of transferin to bind it. This potential toxic process could be enhanced by extra DA formed from levodopa in the therapy of PD (see Olanow 1993 and Olanow et al. 1998)...

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