Electron-Spin-Resonance Studies of DPPH Solutions

Ueda, Hisashi; Kuri, Zen‐ichiro; Shida, Shôji

doi:10.1063/1.1732796

Cited by 21 publications

(11 citation statements)

References 11 publications

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“…Owing to the presence of an odd electron, DPPH shows a strong absorption band at 517 nm. This gradually decreases if the odd electron pairs up in the presence of a radical scavenger, which was followed during the course of the experiment [21,22,23]. There are not many studies that indicate interaction of an azo compound with DPPH, not to mention any that aims to establish an application where an azo compound by virtue of its attribute of quenching DPPH might become biologically useful [32].…”

Section: Radical Scavenging Experimentsmentioning

confidence: 99%

“…The EPR signal of DPPH was used to monitor the free radical scavenging activity of HPIA [21,22,23,42,43,44]. Figure 7, shows for the same initial concentration of DPPH, increasing concentrations of HPIA lead to gradual decrease in its EPR response suggesting that with an increase in concentration of HPIA, a substantial amount of DPPH radical was no more present.…”

Section: Assessment Of Scavenging Of Dpph By Epr Spectroscopymentioning

confidence: 99%

“…Thymine and calf thymus DNA were used as biological targets in model studies where they were irradiated in the absence and presence of HPIA by 60 Co γ-rays in de-aerated (Ar saturated) and N 2 O saturated medium. To establish the mechanism by which radio-protection by HPIA is possible, radical scavenging experiments were designed and performed in the presence of the stable radical DPPH [21,22,23]. To further establish if radio-protection of a biological target was due to scavenging of free radicals within cells, 2‛,7‛-dichlorofluorescin diacetate (DCF-DA) ROS depletion assay was performed on WI-38 lung fibroblast cells [24,25,26,27,28].…”

Section: Introductionmentioning

confidence: 99%

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Radioprotection of thymine and calf thymus DNA by an azo compound: mechanism of action followed by DPPH radical quenching & ROS depletion in WI 38 lung fibroblast cells

Ganguly

Santra

Mazumdar

et al. 2020

Heliyon

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To explain the observed radio-protection properties of an azo compound, 2-(2-hydroxyphenylazo)indole-3 ∕ -acetic acid (HPIA). Materials and methods: Mechanism of radioprotection by HPIA was attempted using the stable free radical 2, 2diphenyl-1-picrylhydrazyl (DPPH) using UV-Vis and electron paramagnetic resonance (EPR) spectroscopy. The radical destroying ability of HPIA was studied by depletion of reactive oxygen species (ROS) in WI 38 lung fibroblast cells.Results & Discussion: Studies indicate HPIA interacts with radical intermediates formed in solution following irradiation by 60 Co γ-rays. As a result, reactive radical intermediates do not cause any damage on chosen substrates like thymine or calf thymus DNA when irradiated in presence of HPIA. The study showed that reactive intermediates not only react with HPIA but that the kinetics of their reaction is definitely faster than their interaction either with thymine or with DNA. Had this not been the case, much more damage would have been observed on chosen substrates following irradiation with 60 Co γ-rays, in the presence of HPIA than actually observed in experiments, particularly those that were performed in a relatively high dose. Experiments reveal radiation induced-damage caused to thymine in presence of HPIA was~1 36 to~1 32 times that caused in its absence under different conditions indicating the radio-protection properties of HPIA. In case of calf thymus DNA, damage in presence of HPIA was much lower than in its absence. A fluorometric microplate assay for depletion of ROS by detecting the oxidation of 2 0 ,7 0 -dichlorofluorescin-diacetate (DCF-DA) into the highly fluorescent compound 2 0 ,7 0 dichlorofluorescein (DCF) indicated HPIA brought about a considerable check on ROS-mediated damage to cells by scavenging them right away. Conclusion:The study indicates HPIA may be an antioxidant supplement during radiotherapy.

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Section: Radical Scavenging Experimentsmentioning

confidence: 99%

Section: Assessment Of Scavenging Of Dpph By Epr Spectroscopymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Radioprotection of thymine and calf thymus DNA by an azo compound: mechanism of action followed by DPPH radical quenching & ROS depletion in WI 38 lung fibroblast cells

Ganguly

Santra

Mazumdar

et al. 2020

Heliyon

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“…As a stable and well-characterized solid radical source, DPPH is the most popular reference sample with Landé g-factor of 2.0036. 22 The intensity of EPR signals depends on the number of radicals for a freshly prepared sample and can be determined by weighing the DPPH sample. DPPH exhibits a single response line in X-band with a small linewidth $1.5-4.7 Oe due to the presence of only one unpaired spin per 41 atoms.…”

Section: Introductionmentioning

confidence: 99%

Detection of L-band electron paramagnetic resonance in the DPPH molecule using impedance measurements

Chaudhuri

Mahendiran

2020

RSC Adv.

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“…1. Besides DPPH-scavenging by reductive hydrogen transfer between various donors and DPPH, non-reductive DPPH-decomposing and -scavenging were found to be induced by reacting with tertiary hydroperoxides 6) and by radical-binding at the para position in the phenyl rings of DPPH, 7) respectively.…”

mentioning

confidence: 99%

Non-reductive Scavenging of 1,1-Diphenyl-2-picrylhydrazyl (DPPH) by Peroxyradical: A Useful Method for Quantitative Analysis of Peroxyradical

Nishizawa

Kohno

Nishimura³

et al. 2005

CHEMICAL & PHARMACEUTICAL BULLETIN

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For quantitative investigations of hydrogen-radical donation, stable radicals have the advantage that their concentrations are readily and directly measurable. Among them a stable free radical 1,1-diphenyl-2-picrylhydrazyl (DPPH) 1) was investigated as a reactive hydrogen acceptor 2) and further found to be useful for the antioxidant determination.3) Since then DPPH has been mainly used to examine radical scavenging activity of antioxidative vitamins and polyhydroxy aromatic compounds 4,5) based on the reactions in Fig. 1. Besides DPPH-scavenging by reductive hydrogen transfer between various donors and DPPH, non-reductive DPPH-decomposing and -scavenging were found to be induced by reacting with tertiary hydroperoxides 6) and by radical-binding at the para position in the phenyl rings of DPPH, 7) respectively.However, nowadays non-reductive DPPH-scavenging has hardly applied for biochemical and physicochemical purposes. It has been reported that peroxyradicals are unique among reactive oxygen species implicated in the production of DNA damage because they possess an extremely long half-life (order of seconds) and are predicted to have a relatively greater chemical selectivity in its reactions as compared with other radical intermediates. A stable radical 1,1-diphenyl-2-picrylhydrazyl (DPPH) has long been used as a convenient method for the antioxidant assay of biological materials such as cysteine, glutathione, ascorbic acid, tocopherol and polyhydroxy aromatic compounds (hydroquinone, pyrogallol, etc). In this study, non-reductive scavenging of DPPH was investigated by electron spin resonance (ESR) analyses for the purpose of developing a useful method for quantitative determination of peroxyradical. Since DPPH was degraded in the presence of peroxyradical derived from UV-irradiated benzoylperoxide and the peroxyradical-induced degradation of DPPH was inhibited by the addition of a spin trapping agent 5,5-dimethyl-1-pyrroline-N-oxide (DMPO), it is concluded that DPPH is non-reductively scavenged by peroxyradical. Therefore, it is suggested that DPPH could be a useful agent for the quantitative measurement of peroxyradical.Key words 1,1-diphenyl-2-picrylhydrazyl (DPPH); non-reductive scavenging; peroxyradical; electron spin resonance (ESR) Fig. 1. The Reaction Scheme between DPPH and the Conjugated Group of Ascorbic Acid (a) or Hydroquinone (b)

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Electron-Spin-Resonance Studies of DPPH Solutions

Cited by 21 publications

References 11 publications

Radioprotection of thymine and calf thymus DNA by an azo compound: mechanism of action followed by DPPH radical quenching & ROS depletion in WI 38 lung fibroblast cells

Radioprotection of thymine and calf thymus DNA by an azo compound: mechanism of action followed by DPPH radical quenching & ROS depletion in WI 38 lung fibroblast cells

Detection of L-band electron paramagnetic resonance in the DPPH molecule using impedance measurements

Non-reductive Scavenging of 1,1-Diphenyl-2-picrylhydrazyl (DPPH) by Peroxyradical: A Useful Method for Quantitative Analysis of Peroxyradical

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