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Structural insight into an Arl1–ArfGEF complex involved in Golgi recruitment of a GRIP-domain golgin

H. Diessel Duan, Bhawik K. Jain, Hua Li, Todd R. Graham () and Huilin Li ()
Additional contact information
H. Diessel Duan: Van Andel Institute
Bhawik K. Jain: Vanderbilt University
Hua Li: Van Andel Institute
Todd R. Graham: Vanderbilt University
Huilin Li: Van Andel Institute

Nature Communications, 2024, vol. 15, issue 1, 1-13

Abstract: Abstract Arl1 is an Arf-like (Arl) GTP-binding protein that interacts with the guanine nucleotide exchange factor Gea2 to recruit the golgin Imh1 to the Golgi. The Arl1–Gea2 complex also binds and activates the phosphatidylserine flippase Drs2 and these functions may be related, although the underlying molecular mechanism is unclear. Here we report high-resolution cryo-EM structures of the full-length Gea2 and the Arl1–Gea2 complex. Gea2 is a large protein with 1459 residues and is composed of six domains (DCB, HUS, SEC7, HDS1-3). We show that Gea2 assembles a stable dimer via an extensive interface involving hydrophobic and electrostatic interactions in the DCB and HUS region. Contrary to the previous report on a Gea2 homolog in which Arl1 binds to the dimerization surface of the DCB domain, implying a disrupted dimer upon Arl1 binding, we find that Arl1 binds to the outside surface of the Gea2 DCB domain, leaving the Gea2 dimer intact. The interaction between Arl1 and Gea2 involves the classic FWY aromatic residue triad as well as two Arl1-specific residues. We show that key mutations that disrupt the Arl1–Gea2 interaction abrogate Imh1 Golgi association. This work clarifies the Arl1–Gea2 interaction and improves our understanding of molecular events in the membrane trafficking.

Date: 2024
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DOI: 10.1038/s41467-024-46304-w

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