| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2041416 | Cell Reports | 2014 | 9 Pages |
•>400 A-to-I editing sites, primarily within noncoding regions, were identified•ADR-1 regulates editing of specific adenosines within 3′ UTRs of diverse transcripts•ADR-1 regulates RNA editing by directly binding to ADR-2 target mRNAs•ADR-1 and ADR-2 do not form heterodimers but co-occupy transcripts in vivo
SummaryInadequate adenosine-to-inosine editing of noncoding regions occurs in disease but is often uncorrelated with ADAR levels, underscoring the need to study deaminase-independent control of editing. C. elegans have two ADAR proteins, ADR-2 and the theoretically catalytically inactive ADR-1. Using high-throughput RNA sequencing of wild-type and adr mutant worms, we expand the repertoire of C. elegans edited transcripts over 5-fold and confirm that ADR-2 is the only active deaminase in vivo. Despite lacking deaminase function, ADR-1 affects editing of over 60 adenosines within the 3′ UTRs of 16 different mRNAs. Furthermore, ADR-1 interacts directly with ADR-2 substrates, even in the absence of ADR-2, and mutations within its double-stranded RNA (dsRNA) binding domains abolish both binding and editing regulation. We conclude that ADR-1 acts as a major regulator of editing by binding ADR-2 substrates in vivo. These results raise the possibility that other dsRNA binding proteins, including the inactive human ADARs, regulate RNA editing through deaminase-independent mechanisms.
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