The distribution and function of phosphatidylserine in cellular membranes
PA Leventis, S Grinstein - Annual review of biophysics, 2010 - annualreviews.org
PA Leventis, S Grinstein
Annual review of biophysics, 2010•annualreviews.orgPhosphatidylserine (PS) is the most abundant negatively charged phospholipid in
eukaryotic membranes. PS directs the binding of proteins that bear C2 or gamma-
carboxyglutamic domains and contributes to the electrostatic association of polycationic
ligands with cellular membranes. Rather than being evenly distributed, PS is found
preferentially in the inner leaflet of the plasma membrane and in endocytic membranes. The
loss of PS asymmetry is an early indicator of apoptosis and serves as a signal to initiate …
eukaryotic membranes. PS directs the binding of proteins that bear C2 or gamma-
carboxyglutamic domains and contributes to the electrostatic association of polycationic
ligands with cellular membranes. Rather than being evenly distributed, PS is found
preferentially in the inner leaflet of the plasma membrane and in endocytic membranes. The
loss of PS asymmetry is an early indicator of apoptosis and serves as a signal to initiate …
Phosphatidylserine (PS) is the most abundant negatively charged phospholipid in eukaryotic membranes. PS directs the binding of proteins that bear C2 or gamma-carboxyglutamic domains and contributes to the electrostatic association of polycationic ligands with cellular membranes. Rather than being evenly distributed, PS is found preferentially in the inner leaflet of the plasma membrane and in endocytic membranes. The loss of PS asymmetry is an early indicator of apoptosis and serves as a signal to initiate blood clotting. This review discusses the determinants and functional implications of the subcellular distribution and membrane topology of PS.
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