@article{6a8ea03653d640a395fe3c443d0ab34c,
title = "Three separable domains regulate GTP-dependent association of H-ras with the plasma membrane",
abstract = "The microlocalization of Ras proteins to different microdomains of the plasma membrane is critical for signaling specificity. Here we examine the complex membrane interactions of H-ras with a combination of FRAP on live cells to measure membrane affinity and electron microscopy of intact plasma membrane sheets to spatially map microdomains. We show that three separable forces operate on H-ras at the plasma membrane. The lipid anchor, comprising a processed CAAX motif and two palmitic acid residues, generates one attractive force that provides a high-affinity interaction with lipid rafts. The adjacent hypervariable linker domain provides a second attractive force but for nonraft plasma membrane microdomains. Operating against the attractive interaction of the lipid anchor for lipid rafts is a repulsive force generated by the N-terminal catalytic domain that increases when H-ras is GTP loaded. These observations lead directly to a novel mechanism that explains how H-ras lateral segregation is regulated by activation state: GTP loading decreases H-ras affinity for lipid rafts and allows the hypervariable linker domain to target to nonraft microdomains, the primary site of H-ras signaling.",
author = "Barak Rotblat and Prior, {Ian A.} and Cornelia Muncke and Parton, {Robert G.} and Yoel Kloog and Henis, {Yoav I.} and Hancock, {John F.}",
year = "2004",
month = aug,
doi = "10.1128/MCB.24.15.6799-6810.2004",
language = "אנגלית",
volume = "24",
pages = "6799--6810",
journal = "Molecular and Cellular Biology",
issn = "0270-7306",
publisher = "Taylor and Francis Ltd.",
number = "15",
}