Identification of novel microRNA-like-coding sites on the long-stem microRNA precursors in Arabidopsis

• We did a comprehensive search for miRNA candidates on the pre-miRNAs of Arabidopsis.
• AGO1 enrichment, miRNA*-like coordinates, and unique genomic sites were considered.
• As a result, 43 miRNA-like candidates deriving from 25 pre-miRNAs were identified.
• Certain miRNA candidates showed organ-specific expression patterns.
• Five miRNA–target pairs were identified, providing functional hints.

Plant microRNA (miRNA) is a crucial regulator of gene expression. It has been reported that more than one miRNA/miRNA* duplex could be produced from a microRNA precursor (pre-miRNA). In this study, we performed a comprehensive search for the novel miRNA candidates on the pre-miRNAs of Arabidopsis. AGO1 enrichment, co-existence of the miRNA*-like coordinates, and unique genome-wide match sites were taken into consideration for candidate screening. As a result, 43 miRNA-like candidates derived from 25 pre-miRNAs were identified. Among these candidates, 31 strong candidates from 22 pre-miRNAs passed all the filtering steps. Interestingly, some of these miRNA-like candidates showed organ-specific expression patterns. After target prediction and degradome sequencing data-based validation, five miRNA candidate–target pairs (ath-miR863-5p.2–AT1G76550.1, ath-miR822.2–AT5G03552.1, ath-miR822.3–AT5G02350.1, sRNA4–AT1G66290.1 and sRNA6–AT1G66310.1) were identified, providing a basis for in-depth functional analysis of these miRNA candidates. These results could update the current understanding of the biogenesis and the action of the plant miRNAs.