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100   $a20010419d2000      uy             0
101 0 $aeng
135   $aurnn|008mamaa
181   $ctxt
182   $cc
183   $acr
200 00$aDistance measurements in biological systems by EPR$b[electronic resource] /$fedited by Lawrence J. Berliner, Gareth R. Eaton and Sandra S. Eaton
205   $a1st ed. 2000.
210   $aNew York ;$aLondon $cKluwer Academic/Plenum$dc2000
215   $a1 online resource (XVIII, 614 p.) 
225 1 $aBiological magnetic resonance ;$vv. 19
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a1-4757-0575-1 
311   $a0-306-46533-7 
320   $aIncludes bibliographical references and index.
327   $aDistance Measurements by CW and Pulsed EPR -- Relaxation Times of Organic Radicals and Transition Metal Ions -- Structural Information from CW-EPR Spectra of Dipolar Coupled Nitroxide Spin Labels -- Determination of Protein Folds and Conformational Dynamics Using Spin-Labeling EPR Spectroscopy -- EPR Spectroscopic Ruler: the Deconvolution Method and its Applications -- TOAC -- Depth of Immersion of Paramagnetic Centers in Biological Systems -- Determination of Distances Based on T1 and Tm Effects -- Double-Quantum ESR and Distance Measurements -- ?2+1? Pulse Sequence as Applied for Distance and Spatial Distribution Measurements of Paramagnetic Centers -- Double Electron-Electron Resonance -- Electron Paramagnetic Resonance Distance Measurements in Photosystems -- Photo-Induced Radical Pairs Investigated Using Out-of-Phase Electron Spin Echo.
330   $aDistance measurements in biological systems by EPR The foundation for understanding function and dynamics of biological systems is knowledge of their structure. Many experimental methodologies are used for determination of structure, each with special utility. Volumes in this series on Biological Magnetic Resonance emphasize the methods that involve magnetic resonance. This volume seeks to provide a critical evaluation of EPR methods for determining the distances between two unpaired electrons. The editors invited the authors to make this a very practical book, with specific numerical examples of how experimental data is worked up to produce a distance estimate, and realistic assessments of uncertainties and of the range of applicability, along with examples of the power of the technique to answer biological problems. The first chapter is an overview, by two of the editors, of EPR methods to determine distances, with a focus on the range of applicability. The next chapter, also by the Batons, reviews what is known about electron spin relaxation times that are needed in estimating distances between spins or in selecting appropriate temperatures for particular experiments. Albert Beth and Eric Hustedt describe the information about spin-spin interaction that one can obtain by simulating CW EPR line shapes of nitroxyl radicals. The information in fluid solution CW EPR spectra of dual-spin labeled proteins is illustrated by Hassane Mchaourab and Eduardo Perozo.
410  0$aBiological magnetic resonance ;$vv. 19.
606   $aElectron paramagnetic resonance
606   $aMagnetic resonance
608   $aElectronic books.
615  0$aElectron paramagnetic resonance.
615  0$aMagnetic resonance.
676   $a538.364
701   $aBerliner$b Lawrence J$0745975
701   $aEaton$b Gareth R$093506
701   $aEaton$b Sandra S$0847684
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910455258803321
996   $aDistance measurements in biological systems by EPR$91893345
997   $aUNINA