Literature DB >> 23870255

Use of rapid-scan EPR to improve detection sensitivity for spin-trapped radicals.

Deborah G Mitchell1, Gerald M Rosen, Mark Tseitlin, Breanna Symmes, Sandra S Eaton, Gareth R Eaton.   

Abstract

The short lifetime of superoxide and the low rates of formation expected in vivo make detection by standard continuous wave (CW) electron paramagnetic resonance (EPR) challenging. The new rapid-scan EPR method offers improved sensitivity for these types of samples. In rapid-scan EPR, the magnetic field is scanned through resonance in a time that is short relative to electron spin relaxation times, and data are processed to obtain the absorption spectrum. To validate the application of rapid-scan EPR to spin trapping, superoxide was generated by the reaction of xanthine oxidase and hypoxanthine with rates of 0.1-6.0 μM/min and trapped with 5-tert-butoxycarbonyl-5-methyl-1-pyrroline-N-oxide (BMPO). Spin trapping with BMPO to form the BMPO-OOH adduct converts the very short-lived superoxide radical into a more stable spin adduct. There is good agreement between the hyperfine splitting parameters obtained for BMPO-OOH by CW and rapid-scan EPR. For the same signal acquisition time, the signal/noise ratio is >40 times higher for rapid-scan than for CW EPR. Rapid-scan EPR can detect superoxide produced by Enterococcus faecalis at rates that are too low for detection by CW EPR.
Copyright © 2013 Biophysical Society. Published by Elsevier Inc. All rights reserved.

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Year:  2013        PMID: 23870255      PMCID: PMC3714875          DOI: 10.1016/j.bpj.2013.06.005

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  36 in total

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2.  X-band rapid-scan EPR of nitroxyl radicals.

Authors:  Deborah G Mitchell; Richard W Quine; Mark Tseitlin; Sandra S Eaton; Gareth R Eaton
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3.  Comparison of Continuous Wave, Spin Echo, and Rapid Scan EPR of Irradiated Fused Quartz.

Authors:  Deborah G Mitchell; Richard W Quine; Mark Tseitlin; Virginia Meyer; Sandra S Eaton; Gareth R Eaton
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4.  Superoxide formation in spinach chloroplasts: electron spin resonance detection by spin trapping.

Authors:  J R Harbour; J R Bolton
Journal:  Biochem Biophys Res Commun       Date:  1975-01-02       Impact factor: 3.575

5.  First combined in vivo X-ray tomography and high-resolution molecular electron paramagnetic resonance (EPR) imaging of the mouse knee joint taking into account the disappearance kinetics of the EPR probe.

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Journal:  Mol Imaging       Date:  2012-06       Impact factor: 4.488

6.  Extracellular superoxide production by Enterococcus faecalis requires demethylmenaquinone and is attenuated by functional terminal quinol oxidases.

Authors:  M M Huycke; D Moore; W Joyce; P Wise; L Shepard; Y Kotake; M S Gilmore
Journal:  Mol Microbiol       Date:  2001-11       Impact factor: 3.501

7.  Organ specific mapping of in vivo redox state in control and cigarette smoke-exposed mice using EPR/NMR co-imaging.

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Journal:  J Magn Reson       Date:  2011-11-07       Impact factor: 2.229

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Authors:  João V Rodrigues; Cláudio M Gomes
Journal:  Free Radic Biol Med       Date:  2012-04-26       Impact factor: 7.376
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  24 in total

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Authors:  Sandra S Eaton; Gareth R Eaton
Journal:  Methods Enzymol       Date:  2015-08-01       Impact factor: 1.600

2.  Rapid Scan Electron Paramagnetic Resonance Opens New Avenues for Imaging Physiologically Important Parameters In Vivo.

Authors:  Joshua R Biller; Deborah G Mitchell; Mark Tseytlin; Hanan Elajaili; George A Rinard; Richard W Quine; Sandra S Eaton; Gareth R Eaton
Journal:  J Vis Exp       Date:  2016-09-26       Impact factor: 1.355

3.  Using rapid-scan EPR to improve the detection limit of quantitative EPR by more than one order of magnitude.

Authors:  J Möser; K Lips; M Tseytlin; G R Eaton; S S Eaton; A Schnegg
Journal:  J Magn Reson       Date:  2017-04-17       Impact factor: 2.229

4.  Full cycle rapid scan EPR deconvolution algorithm.

Authors:  Mark Tseytlin
Journal:  J Magn Reson       Date:  2017-06-11       Impact factor: 2.229

5.  Concept of Phase Cycling in Pulsed Magnetic Resonance Using Sinusoidal Magnetic Field Modulation.

Authors:  Mark Tseytlin
Journal:  Z Phys Chem (N F)       Date:  2016-11-09       Impact factor: 2.408

6.  Rapid Scan EPR imaging as a Tool for Magnetic Field Mapping.

Authors:  Oxana Tseytlin; Andrey A Bobko; Mark Tseytlin
Journal:  Appl Magn Reson       Date:  2020-09-25       Impact factor: 0.831

7.  Improved sensitivity for imaging spin trapped hydroxyl radical at 250 MHz.

Authors:  Joshua R Biller; Mark Tseitlin; Deborah G Mitchell; Zhelin Yu; Laura A Buchanan; Hanan Elajaili; Gerald M Rosen; Joseph P Y Kao; Sandra S Eaton; Gareth R Eaton
Journal:  Chemphyschem       Date:  2014-12-08       Impact factor: 3.102

8.  Imaging of nitroxides at 250MHz using rapid-scan electron paramagnetic resonance.

Authors:  Joshua R Biller; Mark Tseitlin; Richard W Quine; George A Rinard; Hilary A Weismiller; Hanan Elajaili; Gerald M Rosen; Joseph P Y Kao; Sandra S Eaton; Gareth R Eaton
Journal:  J Magn Reson       Date:  2014-03-01       Impact factor: 2.229

9.  Accelerated dynamic EPR imaging using fast acquisition and compressive recovery.

Authors:  Rizwan Ahmad; Alexandre Samouilov; Jay L Zweier
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10.  New spectral-spatial imaging algorithm for full EPR spectra of multiline nitroxides and pH sensitive trityl radicals.

Authors:  Mark Tseitlin; Joshua R Biller; Hanan Elajaili; Valery V Khramtsov; Ilirian Dhimitruka; Gareth R Eaton; Sandra S Eaton
Journal:  J Magn Reson       Date:  2014-06-17       Impact factor: 2.229
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