Phosphorylated Ca2+-ATPase Stable Enough for Structural Studies
Journal of Biological Chemistry, Volume 276, No. 26, Year 2001
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The atomic structure of sarcoplasmic reticulum Ca2+-ATPase, in a Ca2+-bound conformation, has recently been elucidated (Toyoshima, C., Nakasako, M., Nomura, H. & Ogawa, H. (2000) Nature 405, 647-655). Important steps for further understanding the mechanism of ion pumps will be the atomic structural characterization of different key conformational intermediates of the transport cycle, including phosphorylated intermediates. Following our previous report (Champeil, P., Henao, F., Lacapère, J.-J. & McIntosh, D. B. (2000) J. Biol. Chem. 276, 5795-5803), we show here that it is possible to prepare a phosphorylated form of sarcoplasmic reticulum Ca2+-ATPase (labeled with fluorescein isothiocyanate) with a week-long stability both in membranes and in mixed lipid-detergent micelles. We show that this phosphorylated fluorescein isothiocyanate-ATPase can form two-dimensional arrays in membranes, similar to those that were used previously to reconstruct from cryoelectron microscopy images the three-dimensional structure of Ca2+-free unphosphorylated ATPase. The results also provide hope that crystals of phosphorylated Ca2+-ATPase suitable for x-ray crystallography will be achieved.