The myristoyl-electrostatic switch: a modulator of reversible protein-membrane interactions
S McLaughlin, A Aderem - Trends in biochemical sciences, 1995 - cell.com
S McLaughlin, A Aderem
Trends in biochemical sciences, 1995•cell.comHydrophobic insertion of the acyl chain into the bilayer is necessary but not sufficient for the
membrane binding of a myristoylated protein. The myristoylated alanine-rich C kinase
substrate (MARCKS), Src, ADP-ribosylation factor and human immunodeficiency virus-1
matrix proteins also contain a cluster of basic residues that bind to acidic phospholipids; the
hydrophobic and electrostatic interactions act together to anchor the protein to a membrane.
For MARCKS, and perhaps other proteins, phosphorylation of serines within its basic cluster …
membrane binding of a myristoylated protein. The myristoylated alanine-rich C kinase
substrate (MARCKS), Src, ADP-ribosylation factor and human immunodeficiency virus-1
matrix proteins also contain a cluster of basic residues that bind to acidic phospholipids; the
hydrophobic and electrostatic interactions act together to anchor the protein to a membrane.
For MARCKS, and perhaps other proteins, phosphorylation of serines within its basic cluster …
Abstract
Hydrophobic insertion of the acyl chain into the bilayer is necessary but not sufficient for the membrane binding of a myristoylated protein. The myristoylated alanine-rich C kinase substrate (MARCKS), Src, ADP-ribosylation factor and human immunodeficiency virus-1 matrix proteins also contain a cluster of basic residues that bind to acidic phospholipids; the hydrophobic and electrostatic interactions act together to anchor the protein to a membrane. For MARCKS, and perhaps other proteins, phosphorylation of serines within its basic cluster reduces the electrostatic attraction, producing translocation of the protein from the membrane to the cytosol by a simple ‘electrostatic switch' mechanism.
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