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Infrared spectroscopic characterization of the structural changes connected with the E1----E2 transition in the Ca2+-ATPase of sarcoplasmic reticulum
Authors:J L Arrondo  H H Mantsch  N Mullner  S Pikula  A Martonosi
Abstract:The Ca2+-transporting ATPase (EC 3.6.1.38) of sarcoplasmic reticulum alternates between several conformational states during ATP-dependent Ca2+ transport. The E1 conformation is stabilized by 0.1 mM Ca2+ and the E2 conformation by vanadate in a Ca2+-free medium. Fourier transform infrared spectroscopy reveals significant differences between the two states that indicate differences in the protein secondary structure. The two states and the corresponding spectra can be interconverted reversibly by changing the Ca2+ concentration of the medium. The infrared spectral changes indicate the appearance of a new alpha-helical substructure connected with the E1----E2 conversion accompanied by small changes in beta-turns, while the beta-sheet content remains essentially unchanged. There are also differences between the E1 and E2 states in the C = O stretching vibrations of the ester carbonyl groups of phospholipids in intact sarcoplasmic reticulum that are not observed under identical conditions in isolated sarcoplasmic reticulum lipid dispersions. These observations imply an effect of proteins on the structure of the interfacial regions of the phospholipids that is dependent on the conformational state of the Ca2+-ATPase. The CH2- and CH3-stretching frequencies of the membrane lipids are not affected significantly by the E1----E2 transition. The Fourier transform infrared spectra of sarcoplasmic reticulum vesicles in the presence of 20 mM Ca2+ suggest the stabilization of a protein conformation similar to the E2 state except for differences in the behavior of COO- and phospholipid ester C = O groups that may reflect charge effects of the bound Ca2+.
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