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Hydrogen peroxide

About: Hydrogen peroxide is a research topic. Over the lifetime, 42583 publications have been published within this topic receiving 1043732 citations. The topic is also known as: H2O2 & dioxidane.


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Journal ArticleDOI
TL;DR: Data suggest that an excessive accumulation of oxidant damage in sickle erythrocyte membranes might contribute to the accelerated membrane senescence of these cells, and indicate that accumulation of oxidation could be a determinant of normal ery Throcyte membraneSenescence.
Abstract: Since the various membrane abnormalities of sickle erythrocytes might result from excessive accumulation of oxidant damage, we have measured the generation of superoxide, peroxide, and hydroxyl radical by normal and sickle erythrocytes using assays involving reduction of cytochrome c, aminotriazole inhibition of catalase, and methane evolution from dimethyl sulfoxide, respectively. Compared with normal erythrocytes, sickle erythrocytes spontaneously generate approximately twice as much superoxide, peroxide, and hydroxyl radical. One possible source of hydroxyl radical generation was identified as hemichrome, excessive amounts of which are bound to sickle erythrocyte membranes. Hemichrome did not generate hydroxyl radical when exposed to superoxide alone or peroxide alone. However, in the presence of both superoxide and peroxide, hemichrome greatly facilitated hydroxyl radical generation. Supporting this, normal erythrocyte membranes induced to acquire sickle hemichrome concomitantly acquired an enhanced ability to mediate hydroxyl radical generation. Finally, sickle erythrocyte membranes greatly enhanced superoxide/peroxide-driven hydroxyl radical generation as compared with normal erythrocyte membranes. These data suggest that an excessive accumulation of oxidant damage in sickle erythrocyte membranes might contribute to the accelerated membrane senescence of these cells. They further indicate that accumulation of oxidant damage could be a determinant of normal erythrocyte membrane senescence.

435 citations

Journal ArticleDOI
TL;DR: A review of the literature dealing with the formation of hydrogen peroxide from plasma processes can be found in this paper, where the authors present a review of a wide range of plasma processes from rf to pulsed, ac, and dc discharges directly in the liquid phase.
Abstract: This paper presents a review of the literature dealing with the formation of hydrogen peroxide from plasma processes. Energy yields for hydrogen peroxide generation by plasma from water span approximately three orders of magnitude from 4 ? 10?2 to 80?g?kWh?1. A wide range of plasma processes from rf to pulsed, ac, and dc discharges directly in the liquid phase have similar energy yields and may thus be limited by radical quenching processes at the plasma?liquid interface. Reactor modification using discharges in bubbles and discharges over the liquid phase can provide modest improvements in energy yield over direct discharge in the liquid, but the interpretation is complicated by additional chemical reactions of gas phase components such as ozone and nitrogen oxides. The highest efficiency plasma process utilizes liquid water droplets that may enhance efficiency by sequestering hydrogen peroxide in the liquid and by suppressing decomposition reactions by radicals from the gas and at the interface. Kinetic simulations of water vapor reported in the literature suggest that plasma generation of hydrogen peroxide should approach 45% of the thermodynamics limit, and this fact coupled with experimental studies demonstrating improvements with the presence of the condensed liquid phase suggest that further improvements in energy yield may be possible. Plasma generation of hydrogen peroxide directly from water compares favorably with a number of other methods including electron beam, ultrasound, electrochemical and photochemical methods, and other chemical processes.

435 citations

Journal ArticleDOI
TL;DR: Data suggest that the induction of GSH synthesis by an oxidative stimulus plays a crucial role in determining the susceptibility of cells to oxidative stress and the degree of protection against oxidative injury.
Abstract: A system based on Arabidopsis thaliana suspension cultures was established for the analysis of glutathione (GSH) synthesis in the presence of hydrogen peroxide. Mild oxidative stress was induced by use of the catalase inhibitor, aminotriazole, and its development was monitored by measurement of the oxidative inactivation of aconitase. Addition of 2 mM aminotriazole resulted in a 25% decrease in activity of aconitase over 4 h. During the subsequent 10 h, no further decrease in aconitase activity was measured despite a sustained inhibition of catalase. In combination with our failure to detect significant increases in the level of lipid peroxidation, another marker indicative of oxidative injury, these data suggest that although hydrogen peroxide initially leaked into the cytosol, its accumulation was limited by a cytosolic catalase-independent mechanism. A 4-fold increase in the level of GSH, which was almost exclusively in the reduced form, was observed under the same treatment. To determine to what extent this increase in reduced GSH played a role in limiting the accumulation of hydrogen peroxide in the cytosol, we inhibited GSH synthesis with buthionine sulfoximine (BSO), a specific inhibitor of [gamma]-glutamylcysteine synthetase. No significant oxidative injury was detected as a result of treatment with 50 [mu]M BSO alone, and furthermore, this treatment had no effect on cell viability, However, addition of 2 mM aminotriazole to cells preincubated with 50 [mu]M BSO for 15 h led to a rapid loss of aconitase activity (75% in 4 h), and significant accumulation of products of lipid peroxidation. Within 72 h, cell viability was lost completely. After removal of BSO from the growth medium, GSH levels recovered to normal over a period of 20 h. Addition of 2 mM aminotriazole to cells at different time points during this recovery period demonstrated a strong correlation between the level of reduced GSH and the degree of protection against oxidative injury. These data strongly suggest that the induction of GSH synthesis by an oxidative stimulus plays a crucial role in determining the susceptibility of cells to oxidative stress.

434 citations

Journal ArticleDOI
TL;DR: It is rapid, in that free cholesterol can be read in 5 minutes and total cholesterol after 20 minutes, and the precision of the method is greater than that obtained from gas-liquid chromatography.

434 citations

Journal ArticleDOI
15 Jul 1983-Science
TL;DR: A novel, enzymatic approach has been developed for the removal of phenols from coal-conversion aqueous effluents using horseradish peroxidase and hydrogen peroxide.
Abstract: A novel, enzymatic approach has been developed for the removal of phenols from coal-conversion aqueous effluents. Treatment with horseradish peroxidase and hydrogen peroxide precipitates 97 to 99 percent of the phenol in a wide range of pH and phenol concentrations; both model mixtures and real industrial waste-water samples have been treated successfully. Other pollutants, such as polychlorinated biphenyls, can be enzymatically coprecipitated with the phenols.

433 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
20242
20231,644
20223,392
2021897
20201,112
20191,301