Raf promotes dimerization of the Ras G-domain with increased allosteric connections

Morgan Packer(Northeastern University), Jillian A. Parker(Northeastern University), Jean K. Chung(University of California, Berkeley), Zhenlu Li(Case Western Reserve University), Young Kwang Lee(University of California, Berkeley), Trinity Cookis(Northeastern University), Hugo Guterres(Northeastern University), Steven Alvarez(University of California, Berkeley), Md Amin Hossain(Northeastern University), Daniel P. Donnelly(Northeastern University), Jeffrey N. Agar(Northeastern University), Lee Makowski(Northeastern University), Matthias Buck(Case Western Reserve University), Jay T. Groves(University of California, Berkeley), Carla Mattos(Northeastern University)
Proceedings of the National Academy of Sciences
March 2, 2021
10.1073/pnas.2015648118
Cited by 56Open Access
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Abstract

Ras dimerization is critical for Raf activation. Here we show that the Ras binding domain of Raf (Raf-RBD) induces robust Ras dimerization at low surface densities on supported lipid bilayers and, to a lesser extent, in solution as observed by size exclusion chromatography and confirmed by SAXS. Community network analysis based on molecular dynamics simulations shows robust allosteric connections linking the two Raf-RBD D113 residues located in the Galectin scaffold protein binding site of each Raf-RBD molecule and 85 Å apart on opposite ends of the dimer complex. Our results suggest that Raf-RBD binding and Ras dimerization are concerted events that lead to a high-affinity signaling complex at the membrane that we propose is an essential unit in the macromolecular assembly of higher order Ras/Raf/Galectin complexes important for signaling through the Ras/Raf/MEK/ERK pathway.

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