Erythrocyte spectrin maintains its segmental motions on oxidation: a spin-label EPR study.

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The segmental motions of cross-linked erythrocyte skeletal protein (spectrin-actin-protein 4.1) samples, labeled with nitroxide spin labels, were monitored by conventional first-harmonic and saturation transfer second-harmonic electron paramagnetic resonance methods. Skeletal proteins were extracted from human red blood cells and treated with three oxidative reagents (diamide, hydrogen peroxide, and phenylhydrazine) to cross-link sulfhydryl groups and with one fixative reagent (glutaraldehyde) to cross-link lysine residues. The treatments provided extensive cross-linking between spectrin-actin-protein 4.1 molecules, as determined by gel electrophoresis, and surface charge modification, as determined by pl measurements. However, segmental motions of the cross-linked skeletal proteins remained generally similar to those in normal skeletal proteins. Both the weakly immobilized and the strongly immobilized motions were similar in cross-linked and control samples. Small differences in some motional components were detected. In some cases, faster mobilities were observed, with approximately 5% of the strongly immobilized motions converted to the weakly immobilized motions in the cross-linked samples. It is often believed that the consequence of membrane protein oxidation is restricted protein dynamics, giving membrane rigidity. However, our studies provide needed experimental evidence to indicate that segmental motions are maintained with very little modification even in the presence of extensive cross-linking. Thus cross-linking does not restrict the internal molecular flexibility that gives rise to segmental motions.

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