Difference between revisions of "Bromme 2001 Horm Metab Res"
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{{Publication | {{Publication | ||
|title=Brömme HJ, Weinandy R, Peschke D, Peschke E (2001) Simultaneous quantitative determination of alloxan, GSH, and GSSG by HPLC. Estimation of the frequency of redox cycling between alloxan and dialuric acid. Horm | |title=Brömme HJ, Weinandy R, Peschke D, Peschke E (2001) Simultaneous quantitative determination of alloxan, GSH, and GSSG by HPLC. Estimation of the frequency of redox cycling between alloxan and dialuric acid. Horm Metab Res 33:106-9. | ||
|info=[http://www.ncbi.nlm.nih.gov/pubmed/11294491 PMID: 11294491] | |||
|authors=Broemme HJ, Weinandy R, Peschke D, Peschke E | |authors=Broemme HJ, Weinandy R, Peschke D, Peschke E | ||
|year=2001 | |year=2001 | ||
|journal=Horm | |journal=Horm Metab Res | ||
|abstract=This in vitro study compares the frequency of redox cycling between alloxan and dialuric acid at different initial ratios of glutathione and alloxan. Alloxan oxidizes GSH to GSSG. The rate of GSH oxidation at a given initial GSH concentration of 2.0 mmol/L depends on the initial concentration of alloxan added. The higher the concentration of alloxan in relation to the initial concentration of GSH, the faster GSH oxidation proceeds, as well as oxygen consumption, and therefore, formation of reactive oxygen species. The highest rates of GSH oxidation, i. e. GSSG formation, were found at concentration ratios of between 2.0 mmol/L GSH and 0.2 and 0.04 mmol/L alloxan, respectively. Because 0.04 mmol/L alloxan oxidizes 2.0 mmol/L GSH completely, a frequency of at least 25 cycles between alloxan and dialuric acid within 3 hours can be assumed. During each redox cycle, two molecules of GSH are oxidized to one molecule of GSSG, and during each cycle one molecule of oxygen is reduced simultaneously to one molecule of hydrogen peroxide. In total, therefore, one molecule of alloxan oxidizes at least 50 molecules of GSH and forms about 25 molecules of hydrogen peroxide. | |abstract=This ''in vitro'' study compares the frequency of redox cycling between alloxan and dialuric acid at different initial ratios of glutathione and alloxan. Alloxan oxidizes GSH to GSSG. The rate of GSH oxidation at a given initial GSH concentration of 2.0 mmol/L depends on the initial concentration of alloxan added. The higher the concentration of alloxan in relation to the initial concentration of GSH, the faster GSH oxidation proceeds, as well as oxygen consumption, and therefore, formation of reactive oxygen species. The highest rates of GSH oxidation, i. e. GSSG formation, were found at concentration ratios of between 2.0 mmol/L GSH and 0.2 and 0.04 mmol/L alloxan, respectively. Because 0.04 mmol/L alloxan oxidizes 2.0 mmol/L GSH completely, a frequency of at least 25 cycles between alloxan and dialuric acid within 3 hours can be assumed. During each redox cycle, two molecules of GSH are oxidized to one molecule of GSSG, and during each cycle one molecule of oxygen is reduced simultaneously to one molecule of hydrogen peroxide. In total, therefore, one molecule of alloxan oxidizes at least 50 molecules of GSH and forms about 25 molecules of hydrogen peroxide. | ||
|keywords=Alloxan, GSH, GSSG, HPLC, ROS | |keywords=Alloxan, GSH, GSSG, HPLC, ROS | ||
| | |discipline=Pharmacology; Biotechnology | ||
}} | }} | ||
{{Labeling | {{Labeling | ||
|preparations=Oxidase;biochemical oxidation | |||
|instruments=Oxygraph-2k | |||
|discipline=Pharmacology; Biotechnology | |discipline=Pharmacology; Biotechnology | ||
}} | }} | ||
Latest revision as of 15:33, 17 February 2015
| Brömme HJ, Weinandy R, Peschke D, Peschke E (2001) Simultaneous quantitative determination of alloxan, GSH, and GSSG by HPLC. Estimation of the frequency of redox cycling between alloxan and dialuric acid. Horm Metab Res 33:106-9. |
Broemme HJ, Weinandy R, Peschke D, Peschke E (2001) Horm Metab Res
Abstract: This in vitro study compares the frequency of redox cycling between alloxan and dialuric acid at different initial ratios of glutathione and alloxan. Alloxan oxidizes GSH to GSSG. The rate of GSH oxidation at a given initial GSH concentration of 2.0 mmol/L depends on the initial concentration of alloxan added. The higher the concentration of alloxan in relation to the initial concentration of GSH, the faster GSH oxidation proceeds, as well as oxygen consumption, and therefore, formation of reactive oxygen species. The highest rates of GSH oxidation, i. e. GSSG formation, were found at concentration ratios of between 2.0 mmol/L GSH and 0.2 and 0.04 mmol/L alloxan, respectively. Because 0.04 mmol/L alloxan oxidizes 2.0 mmol/L GSH completely, a frequency of at least 25 cycles between alloxan and dialuric acid within 3 hours can be assumed. During each redox cycle, two molecules of GSH are oxidized to one molecule of GSSG, and during each cycle one molecule of oxygen is reduced simultaneously to one molecule of hydrogen peroxide. In total, therefore, one molecule of alloxan oxidizes at least 50 molecules of GSH and forms about 25 molecules of hydrogen peroxide. • Keywords: Alloxan, GSH, GSSG, HPLC, ROS
Labels:
Preparation: Oxidase;biochemical oxidation
HRR: Oxygraph-2k
