Structure of the dimerization domain of DiGeorge Critical Region 8

Maturation of microRNAs (miRNAs, ∼22nt) from long primary transcripts [primary miRNAs (pri‐miRNAs)] is regulated during development and is altered in diseases such as cancer. The first processing step is a cleavage mediated by the Microprocessor complex containing the Drosha nuclease and the RNA‐binding protein DiGeorge critical region 8 (DGCR8). We previously reported that dimeric DGCR8 binds heme and that the heme‐bound DGCR8 is more active than the heme‐free form. Here, we identified a conserved dimerization domain in DGCR8. Our crystal structure of this domain (residues 298–352) at 1.7 Å resolution demonstrates a previously unknown use of a WW motif as a platform for extensive dimerization interactions. The dimerization domain of DGCR8 is embedded in an independently folded heme‐binding domain and directly contributes to association with heme. Heme‐binding‐deficient DGCR8 mutants have reduced pri‐miRNA processing activity in vitro . Our study provides structural and biochemical bases for understanding how dimerization and heme binding of DGCR8 may contribute to regulation of miRNA biogenesis.