The RING-finger domain of Arabidopsis RMR functions as an E3 ligase essential for post-Golgi trafficking

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Abstract

Receptor-homology-transmembrane-RING-H2 (RMR) sorting receptors are essential for directing soluble cargo proteins to protein storage vacuoles in plants. These type I integral membrane proteins comprise a single transmembrane domain, an N-terminal lumenal region containing a protease-associated domain for cargo recognition, and a C-terminal cytoplasmic region (CT) with a Really-Interesting-New-Gene-H2 (RING-H2) domain. Here, we determined the crystal structure of the RING-H2 domain of Arabidopsis RMR isoform-1 (AtRMR1-RING), where the conserved C3H2C3 motif coordinates two Zn ions, a feature typical of RING-type E3 ligases. AtRMR1-RING was shown to interact with Arabidopsis E2 ubiquitin-conjugating enzyme, and exhibits E3 ligase activity in an in vitro ubiquitination assay. Biochemical analysis reveals that I234Y substitution disrupted the E2/E3 interaction and greatly reduced E3 ligase activity. Furthermore, we showed that the conserved RING-H2 domains of AtRMR isoform 2, 3 and 4 are also E3 ligases. Inactivation of E3 ligase activity by the I234Y mutation resulted in Golgi retention of AtRMR1-CT and AtRMR2. These findings suggest that the E3 ligase activity is essential for post-Golgi trafficking of RMR receptors, providing new insights into receptor-mediated protein sorting in plants.

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