Structure of a Ca2+bound phosphoenzyme intermediate in the inward-to-outward transition of Ca2+-ATPase 1 fromListeria monocytogenes

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Abstract

Active transport by Ca 2+ -ATPases of the P-type ATPase family maintain a very low cytosolic calcium concentration and steep electrochemical gradients. Detailed mechanisms of this transport have been described from structures of mammalian sarco/endoplasmic reticulum Ca 2+ -ATPases (SERCA) stabilized by inhibitors at specific intermediate steps of the transport cycle. An essentially irreversible step is crucial to prevent reflux in active transport against steep gradients. Single-molecule FRET (smFRET) study of the bacterial Ca 2+ -ATPase LMCA1 revealed an intermediate of the transition between so-called [Ca]E1P and E2P states, suggesting that calcium release from this intermediate is the irreversible step. Here, we present a 3.5Å cryo-EM structure for a four-glycine insertion mutant (G 4 -LMCA1) in a lipid nanodisc obtained under turnover conditions and adopting such a calcium-bound intermediate, denoted [Ca]E2P. The cytosolic domains are positioned in the E2P-like conformation, while the calcium-binding transmembrane (TM) domain is similar to calcium-bound E1P-ADP like conformation of SERCA. Missing density for the E292 residue at the calcium site (equivalent of SERCA1a E309) suggests flexibility and a site poised for calcium release and proton uptake. The structure suggests a mechanism for the inward-to-outward transition in Ca 2+ -ATPases, where ADP release and re-organisation of the cytoplasmic domains precede calcium release.

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00