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Winnikoff, Jacob R; Milshteyn, Daniel; Vargas-Urbano, Sasiri J; Pedraza-Joya, Miguel A; Armando, Aaron M; Quehenberger, Oswald; Sodt, Alexander; Gillilan, Richard E; Dennis, Edward A; Lyman, Edward; et al (, Science)Hydrostatic pressure increases with depth in the ocean, but little is known about the molecular bases of biological pressure tolerance. We describe a mode of pressure adaptation in comb jellies (ctenophores) that also constrains these animals’ depth range. Structural analysis of deep-sea ctenophore lipids shows that they form a nonbilayer phase at pressures under which the phase is not typically stable. Lipidomics and all-atom simulations identified phospholipids with strong negative spontaneous curvature, including plasmalogens, as a hallmark of deep-adapted membranes that causes this phase behavior. Synthesis of plasmalogens enhanced pressure tolerance inEscherichia coli, whereas low-curvature lipids had the opposite effect. Imaging of ctenophore tissues indicated that the disintegration of deep-sea animals when decompressed could be driven by a phase transition in their phospholipid membranes.more » « less
