Functionally distinct regulatory RNAs generated by bidirectional transcription and processing of microRNA loci

David M. Tyler; Katsutomo Okamura; Wei-Jen Chung; Joshua W. Hagen; Eugene Berezikov; Gregory J. Hannon; Eric C. Lai

doi:10.1101/gad.1615208

Functionally distinct regulatory RNAs generated by bidirectional transcription and processing of microRNA loci

¹ Department of Developmental Biology, Sloan-Kettering Institute, New York, New York 10021, USA;
² Hubrecht Institute, Utrecht 3584 CT, The Netherlands;
³ Watson School of Biological Sciences and Howard Hughes Medical Institute, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York 11724, USA

Abstract

Many microRNA (miRNA) loci exhibit compelling hairpin structures on both sense and antisense strands; however, the possibility that a miRNA gene might produce functional species from its antisense strand has not been examined. We report here that antisense transcription of the Hox miRNA locus mir-iab-4 generates the novel pre-miRNA hairpin mir-iab-8, which is then processed into endogenous mature miRNAs. Sense and antisense iab-4/iab-8 miRNAs are functionally distinguished by their distinct domains of expression and targeting capabilities. We find that miR-iab-8-5p, like miR-iab-4-5p, is also relevant to Hox gene regulation. Ectopic mir-iab-8 can strongly repress the Hox genes Ultrabithorax and abdominal-A via extensive arrays of conserved target sites, and can induce a dramatic homeotic transformation of halteres into wings. We generalize the antisense miRNA principle by showing that several other loci in both invertebrates and vertebrates are endogenously processed on their antisense strands into mature miRNAs with distinct seeds. These findings demonstrate that antisense transcription and processing contributes to the functional diversification of miRNA genes.

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