Gene regulatory mechanisms rely on a complex network of RNA processing factors to prevent untimely gene expression. In fission yeast, the highly conserved ortholog of human ERH, called Erh1, interacts with the YTH family RNA binding protein Mmi1 to form the Erh1-Mmi1 complex (EMC) implicated in gametogenic gene silencing. However, the structural basis of EMC assembly and its functions are poorly understood. Here, we present the co-crystal structure of the EMC that consists of Erh1 homodimers interacting with Mmi1 in a 2:2 stoichiometry via a conserved molecular interface. Structure-guided mutation of the Mmi1Trp112 residue, which is required for Erh1 binding, causes defects in facultative heterochromatin assembly and gene silencing while leaving Mmi1-mediated transcription termination intact. Indeed, EMC targets masked in mmi1∆ due to termination defects are revealed in mmi1W112A. Our study delineates EMC requirements in gene silencing and identifies an ERH interface required for interaction with an RNA binding protein.
MEX‐3C, a novel RNA binding E3 ubiquitin ligases, contains two N‐terminal heterogeneous nuclear ribonucleoprotein K homology (KH) domains and C‐terminal Ring finger domain. Recent evidence has suggested that human MEX‐3C has a strong bondage with carcinogenesis and the MEX‐3C‐mediated ubiquitination of RIG‐I is essential for the antiviral innate immune response. Moreover, the Ring finger domain of MEX‐3C could regulate the degradation of HLA‐A2 (an MHC‐I allotype) mRNA with a novel mechanism. However, the structural basis for the ubiquitination catalyzed by hMEX‐3C Ring finger domain remains evasive. In this study, we solved the crystal structure of dimeric Ring finger domain of hMEX‐3C and compared it with the complex structure of MDM2/MDMX–UbcH5b–Ub. Our ubiquitination assay demonstrated that the Ring finger domain of hMEX‐3C acts as a ubiquitin E3 ligase in vitro, cooperating with specific E2 to mediate ubiquitination. Then, we identified several key residues in Ring finger domain of hMEX‐3C possibly involved in the interaction with E2–Ub conjugate and analyzed the E3 ligase activities of wild type and mutants at key sites. Additionally, zinc chelation experiments indicated that the intact structural stability is essential for the self‐ubiquitination activity of the Ring finger domain of hMEX‐3C. Taken together, our studies provided new insight into the mechanism of the Ring finger domain of hMEX‐3C that may play an important role in eliciting antiviral immune responses and therapeutic interventions.
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