Identification of MIR390a precursor processing-defective mutants in Arabidopsis by direct genome sequencing

Josh T. Cuperus, Taiowa A. Montgomery, Noah Fahlgren, Russell T. Burke, Tiffany Townsend, Christopher M. Sullivan, James C. Carrington

Research output: Contribution to journalArticlepeer-review

119 Scopus citations


Transacting siRNA (tasiRNA) biogenesis in Arabidopsis is initiated by microRNA (miRNA) -guided cleavage of primary transcripts. In the case of TAS3 tasiRNA formation, ARGONAUTE7 (AGO7)-miR390 complexes interact with primary transcripts at two sites, resulting in recruitment of RNA-DEPENDENT RNA POLYMERASE6 for dsRNA biosynthesis. An extensive screen for Arabidopsis mutants with specific defects in TAS3 tasiRNA biogenesis or function was done. This yielded numerous ago7 mutants, one dcl4 mutant, and two mutants that accumulated low levels of miR390. A direct genome sequencing-based approach to both map and rapidly identify one of the latter mutant alleles was developed. This revealed a G-to-A point mutation (mir390a-1) that was calculated to stabilize a relatively nonpaired region near the base of the MIR390a foldback, resulting in misprocessing of the miR390/ miR390* duplex and subsequent reduced TAS3 tasiRNA levels. Directed substitutions, as well as analysis of variation at paralogous miR390-generating loci (MIR390a and MIR390b), indicated that base pair properties and nucleotide identity within a region 4-6 bases below the miR390/miR390* duplex region contributed to the efficiency and accuracy of precursor processing.

Original languageEnglish
Pages (from-to)466-471
Number of pages6
JournalProceedings of the National Academy of Sciences of the United States of America
Issue number1
StatePublished - 2010


  • High-throughput sequencing
  • Trans-acting siRNA
  • miRNA


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