Electron Spin Resonance (ESR) Study of Cigarette Smoke by Use of Spin Trapping Techniques

Pryor, William A.; Terauchi, Kenichi; Davis, W. Hersey

doi:10.2307/3428597

Cited by 16 publications

(9 citation statements)

References 30 publications

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“…Cigarette Smoke Sampling. The puff protocol was used to sample cigarette smoke. Using a 50-mL syringe, 35-mL puffs of 2-s duration were drawn from the cigarettes.…”

Section: Experimental Methodsmentioning

confidence: 99%

Detection and Separation of Gas-Phase Carbon-Centered Radicals from Cigarette Smoke and Diesel Exhaust

Flicker

Green

1998

Anal. Chem.

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Carbon-centered radicals were trapped from gas-phase cigarette smoke and diesel engine exhaust by reaction with a nitroxide, 3-amino-2,2,5,5-tetramethyl-1-pyrrolidinyloxy (3AP). The resulting mixture of stable, diamagnetic adducts was derivatized with naphthalenedicarboxaldehyde (NDA) to produce highly fluorescent products. Derivatives were separated by high-performance liquid chromatography (HPLC), which revealed distinctly different suites of radicals present in the two systems. Integration of HPLC peaks gave approximately 22 ± 7 nmol of radicals per cigarette and 3 ± 1 nmol of radicals per liter of diesel engine exhaust. An estimated 8-10 different carbon-centered radical species are present in each system.

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“…Cigarette Smoke Sampling. The puff protocol was used to sample cigarette smoke. Using a 50-mL syringe, 35-mL puffs of 2-s duration were drawn from the cigarettes.…”

Section: Experimental Methodsmentioning

confidence: 99%

Detection and Separation of Gas-Phase Carbon-Centered Radicals from Cigarette Smoke and Diesel Exhaust

Flicker

Green

1998

Anal. Chem.

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“…The nitrone 5,5-dimethyl-1-pyrroline N -oxide (DMPO) has been the most popular spin trap used in the detection and identification of transient radicals in chemical − and biological − systems using electron paramagnetic resonance (EPR) spectroscopy. Among the reactive oxygen species (ROS), the superoxide radical anion (O 2 •- ) has attracted considerable attention over the past 3 decades due to the crucial role it plays (along with nitric oxide (NO)) as a modulator of cellular functions such as in cell signaling, cell proliferation, or apoptosis .…”

Section: Introductionmentioning

confidence: 99%

Superoxide Radical Anion Adduct of 5,5-Dimethyl-1-pyrroline N-Oxide (DMPO). 2. The Thermodynamics of Decay and EPR Spectral Properties

et al. 2005

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The formation of the superoxide radical anion (O2*-) adduct of the nitrone 5,5-dimethyl-1-pyrroline N-oxide (DMPO) as detected by electron paramagnetic resonance (EPR) spectroscopy is one of the most common techniques for O2*- detection in chemical and biological systems. However, the nature of DMPO-O2H has confounded spin-trapping investigators over the years, since there has been no independently synthesized DMPO-O2H to date. A density functional theory (DFT) approach was used to predict the isotropic hyperfine coupling constants arising from the N, beta-H, and gamma-H nuclei of DMPO-O2H using explicit interactions with water molecules as well as via a bulk dielectric effect employing the polarizable continuum model (PCM). Theoretical calculation on the thermodynamics of DMPO-O2H decay shows favorable intramolecular rearrangement to form a nitrosoaldehyde and a hydroxyl radical as products, consistent with experimental observations. Some pathways for the bimolecular decomposition of DMPO-O2H and DMPO-OH have also been computed.

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“…Prior to 1974, the hydroperoxyl radical ( • O 2 H) could only be detected directly by EPR at low temperature or as a metal complex. , These approaches to radical detection limited the detection of superoxide (O 2 •- ) in biological systems, until DMPO was introduced for this purpose almost 3 decades ago by Harbor et al Subsequent detection of superoxide/hydroperoxyl (O 2 •- / • O 2 H) radicals in aqueous systems by EPR spin trapping using DMPO paved the way to exciting new findings in chemistry − and biology. − …”

Section: Introductionmentioning

confidence: 99%

Superoxide Radical Anion Adduct of 5,5-Dimethyl-1-pyrroline N-Oxide (DMPO). 1. The Thermodynamics of Formation and Its Acidity

et al. 2005

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The nitrone 5,5-dimethyl-1-pyrroline N-oxide (DMPO) has been the most widely used spin trap for the detection of transient free radicals in chemical, biological, and biomedical research using electron paramagnetic resonance (EPR) spectroscopy. A density functional theory (DFT) approach was used to predict the thermodynamics of formation of the superoxide anion/hydroperoxyl radical (O2*-/*O2H) adduct of DMPO as well as its pK(a) in aqueous systems. At the B3LYP/6-31+G(d,p)//B3LYP/6-31G(d) level, we predicted (in the gas phase and with a polarizable continuum model (PCM) for water) three conformational minima for both the DMPO-O2- and DMPO-O2H adducts. Using DFT and the PCM solvation method, the pK(a) of DMPO-O2H was predicted to be 14.9 +/- 0.5. On the basis of free energy considerations, the formation of DMPO-O2H at neutral pH proceeds via initial addition of O2*- to DMPO to form the DMPO-O2- adduct and then subsequent protonation by water (or other acidic sources) to form DMPO-O2H. Under acidic conditions, the addition of *O2H to DMPO is predicted to be more exoergic than the addition of O2*- and is consistent with available experimental kinetic data.

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Electron Spin Resonance (ESR) Study of Cigarette Smoke by Use of Spin Trapping Techniques

Cited by 16 publications

References 30 publications

Detection and Separation of Gas-Phase Carbon-Centered Radicals from Cigarette Smoke and Diesel Exhaust

Detection and Separation of Gas-Phase Carbon-Centered Radicals from Cigarette Smoke and Diesel Exhaust

Superoxide Radical Anion Adduct of 5,5-Dimethyl-1-pyrroline N-Oxide (DMPO). 2. The Thermodynamics of Decay and EPR Spectral Properties

Superoxide Radical Anion Adduct of 5,5-Dimethyl-1-pyrroline N-Oxide (DMPO). 1. The Thermodynamics of Formation and Its Acidity

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