Open AccessElectron Spin Resonance Studies of Spin-Labeled Mammalian Cells by Detection of Surface-Membrane Signals
Author(s) -
Joseph A. Kaplan,
Peter G. Caico,
William J. Caspary
Publication year - 1973
Publication title -
proceedings of the national academy of sciences
Language(s) - English
Resource type - Journals
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.70.1.66
Subject(s) - electron paramagnetic resonance , ferricyanide , spin (aerodynamics) , membrane , chemistry , site directed spin labeling , cell membrane , spin label , resonance (particle physics) , nuclear magnetic resonance , biophysics , analytical chemistry (journal) , biochemistry , biology , atomic physics , chromatography , physics , thermodynamics
Lipid-soluble spin labels were incorporated into human lymphocytes and mouse L-cells and the resulting electron spin resonance spectra were compared with spectra obtained from similarly labeled human erythrocytes. Spin labels were found in all subcellular fractions of the nucleated cells that contained membranes. Spinlabeled cells remained viable and capable of replicatingin vitro . Electron spin resonance signals from spin-labeled nucleated cells underwent a time- and temperature-dependent decay that was reversed by bathing the cells in K3 Fe(CN)6 . The demonstration of a relative cell impermeability to ferricyanide, as measured by both colorimetric and radioisotopic label methods, indicated that only spin-labeled molecules in the surface membrane were reactivated when ferricyanide was added to spin-labeled cells after the electron spin resonance signal had decayed.
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