Free-radical generation by copper ions and hydrogen peroxide. Stimulation by Hepes buffer.

J. A. Simpson; K. H. Cheeseman; S. E. Smith; R. T. Dean

doi:10.1042/bj2540519

Free-radical generation by copper ions and hydrogen peroxide. Stimulation by Hepes buffer.

J. A. Simpson, K. H. Cheeseman, S. E. Smith, R. T. Dean

Brunel University London

Research output: Contribution to journal › Article › peer-review

161 Citations (Scopus)

Abstract

Hydroxyl radicals (OH.), generated by a phosphate-buffered Cu2+/H2O2 system, were detected by lucigenin-amplified chemiluminescence, deoxyribose degradation and benzoate hydroxylation. In each system the buffer, Hepes, was found to stimulate radical generation significantly. There are two main reasons for this effect: Hepes increases Cu2+ solubility in phosphate-buffered systems, and forms a complex with Cu2+ that is effective in generating OH. from H2O2. Pipes, a structurally similar buffer, and histidine, a known Cu2+ chelator, were found to have a similar effect. These data suggest that the crucial factor in such free-radical-generating systems is the availability of Cu2+, and that these actions of Hepes should be considered in the design of studies utilizing such systems.

Original language	English
Pages (from-to)	519-523
Number of pages	5
Journal	The Biochemical Journal
Volume	254
Issue number	2
DOIs	https://doi.org/10.1042/bj2540519
Publication status	Published - 1988
Externally published	Yes

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title = "Free-radical generation by copper ions and hydrogen peroxide. Stimulation by Hepes buffer.",

abstract = "Hydroxyl radicals (OH.), generated by a phosphate-buffered Cu2+/H2O2 system, were detected by lucigenin-amplified chemiluminescence, deoxyribose degradation and benzoate hydroxylation. In each system the buffer, Hepes, was found to stimulate radical generation significantly. There are two main reasons for this effect: Hepes increases Cu2+ solubility in phosphate-buffered systems, and forms a complex with Cu2+ that is effective in generating OH. from H2O2. Pipes, a structurally similar buffer, and histidine, a known Cu2+ chelator, were found to have a similar effect. These data suggest that the crucial factor in such free-radical-generating systems is the availability of Cu2+, and that these actions of Hepes should be considered in the design of studies utilizing such systems.",

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T1 - Free-radical generation by copper ions and hydrogen peroxide. Stimulation by Hepes buffer.

AU - Simpson, J. A.

AU - Cheeseman, K. H.

AU - Smith, S. E.

AU - Dean, R. T.

PY - 1988

Y1 - 1988

N2 - Hydroxyl radicals (OH.), generated by a phosphate-buffered Cu2+/H2O2 system, were detected by lucigenin-amplified chemiluminescence, deoxyribose degradation and benzoate hydroxylation. In each system the buffer, Hepes, was found to stimulate radical generation significantly. There are two main reasons for this effect: Hepes increases Cu2+ solubility in phosphate-buffered systems, and forms a complex with Cu2+ that is effective in generating OH. from H2O2. Pipes, a structurally similar buffer, and histidine, a known Cu2+ chelator, were found to have a similar effect. These data suggest that the crucial factor in such free-radical-generating systems is the availability of Cu2+, and that these actions of Hepes should be considered in the design of studies utilizing such systems.

AB - Hydroxyl radicals (OH.), generated by a phosphate-buffered Cu2+/H2O2 system, were detected by lucigenin-amplified chemiluminescence, deoxyribose degradation and benzoate hydroxylation. In each system the buffer, Hepes, was found to stimulate radical generation significantly. There are two main reasons for this effect: Hepes increases Cu2+ solubility in phosphate-buffered systems, and forms a complex with Cu2+ that is effective in generating OH. from H2O2. Pipes, a structurally similar buffer, and histidine, a known Cu2+ chelator, were found to have a similar effect. These data suggest that the crucial factor in such free-radical-generating systems is the availability of Cu2+, and that these actions of Hepes should be considered in the design of studies utilizing such systems.

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Free-radical generation by copper ions and hydrogen peroxide. Stimulation by Hepes buffer.

Abstract

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