PLoS Genetics (Oct 2011)

Feed-forward microprocessing and splicing activities at a microRNA-containing intron.

  • Maja M Janas,
  • Mehdi Khaled,
  • Steffen Schubert,
  • Jacob G Bernstein,
  • David Golan,
  • Rosa A Veguilla,
  • David E Fisher,
  • Noam Shomron,
  • Carmit Levy,
  • Carl D Novina

DOI
https://doi.org/10.1371/journal.pgen.1002330
Journal volume & issue
Vol. 7, no. 10
p. e1002330

Abstract

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The majority of mammalian microRNA (miRNA) genes reside within introns of protein-encoding and non-coding genes, yet the mechanisms coordinating primary transcript processing into both mature miRNA and spliced mRNA are poorly understood. Analysis of melanoma invasion suppressor miR-211 expressed from intron 6 of melastatin revealed that microprocessing of miR-211 promotes splicing of the exon 6-exon 7 junction of melastatin by a mechanism requiring the RNase III activity of Drosha. Additionally, mutations in the 5' splice site (5'SS), but not in the 3'SS, branch point, or polypyrimidine tract of intron 6 reduced miR-211 biogenesis and Drosha recruitment to intron 6, indicating that 5'SS recognition by the spliceosome promotes microprocessing of miR-211. Globally, knockdown of U1 splicing factors reduced intronic miRNA expression. Our data demonstrate novel mutually-cooperative microprocessing and splicing activities at an intronic miRNA locus and suggest that the initiation of spliceosome assembly may promote microprocessing of intronic miRNAs.