It is now clear that membrane association of intrinsically disordered proteins or intrinsically disordered regions regulates many cellular processes, such as membrane targeting of Src family kinases and ion channel gating. Residue-specific characterization by nuclear magnetic resonance spectroscopy, molecular dynamics simulations, and other techniques has shown that polybasic motifs and amphipathic helices are the main drivers of membrane association
sequence-based prediction of residue-specific membrane association propensity has become possible. Membrane association facilitates protein-protein interactions and protein aggregation-these effects are due to reduced dimensionality but are similar to those afforded by condensate formation via liquid-liquid phase separation (LLPS). LLPS at the membrane surface provides a powerful means for recruiting and clustering proteins, as well as for membrane remodeling.