@article{386f805f90314ea297044efd65a2b2ab,
title = "The quaternary assembly of KRas4B with Raf-1 at the membrane",
abstract = "Proximally located in the membrane, oncogenic Ras dimers (or nanoclusters) can recruit and promote Raf dimerization and MAPK (Raf/MEK/ERK) signaling. Among Ras isoforms, KRas4B is the most frequently mutated. Recent data on the binary KRas4B–Raf-1 complex suggested that Raf-1 CRD not only executes membrane anchorage, but also supports the high-affinity interaction of Raf-1 RBD with KRas4B catalytic domain. For a detailed mechanistic picture of Raf activation at the membrane, we employ explicit MD simulations of the quaternary KRas4B–Raf-1 complex. The complex contains two active GTP-bound KRas4B proteins forming a dimer through the allosteric lobe interface and two tandem RBD-CRD segments of Raf-1 interacting with the effector lobes at both ends of the KRas4B dimer. We show that Raf-1 RBD-CRD supports stable KRas4B dimer at preferred interface and orientation at the membrane, thereby cooperatively enhancing the affinity of the KRas4B–Raf-1 interaction. We propose that a Ras dimer at the membrane can increase the population of proximal Raf kinase domains, promoting kinase domain dimerization in the cytoplasm. Collectively, the dynamic Ras–Raf assembly promotes Raf activation not by allostery; instead, Ras activates Raf by shifting its ensemble toward kinase domain-accessible states through enhanced affinity at the membrane.",
keywords = "Anionic bilayer, C-Raf, CRD, KRAS, MAPK pathway, Molecular dynamics, Nanoclusters, RBD, Ras dimerization",
author = "Hyunbum Jang and Mingzhen Zhang and Ruth Nussinov",
note = "Publisher Copyright: {\textcopyright} 2020 The Authors",
year = "2020",
doi = "10.1016/j.csbj.2020.03.018",
language = "אנגלית",
volume = "18",
pages = "737--748",
journal = "Computational and Structural Biotechnology Journal",
issn = "2001-0370",
publisher = "Research Network of Computational and Structural Biotechnology",
}