miRNAs trigger widespread epigenetically-activated siRNAs from transposons in Arabidopsis

In plants, post-transcriptional gene silencing (PTGS) is mediated by DICER-LIKE1 (DCL1)-dependent miRNAs, that also trigger 21-nt secondary siRNA via RNA DEPENDENT RNA POLYMERASE6 (RDR6), DCL4, and ARGONAUTE1 (AGO1)(1–3), while transcriptional gene silencing (TGS) of transposons is mediated by 24-nt heterochromatic (het)siRNA RDR2, DCL3 and AGO4(4). Transposons can also give rise to abundant 21-nt “epigenetically activated” small interfering RNAs (easiRNAs) in DECREASE IN DNA METHYLATION1 (ddm1) and DNA METHYLTRANSFERASE1 (met1) mutants, as well as in the vegetative nucleus of pollen grains(5), and in dedifferentiated plant cell cultures(6). Here we show that easiRNAs resemble secondary siRNAs, in that thousands of transposon transcripts are specifically targeted by more than fifty miRNAs for cleavage and processing by RDR6. Loss of RDR6, DCL4 or DCL1 in a ddm1 background results in loss of 21-nt easiRNA, and severe infertility, but 24-nt hetsiRNA are partially restored, supporting an antagonistic relationship between PTGS and TGS. Thus miRNA-directed easiRNA biogenesis is a latent mechanism that specifically targets transposon transcripts, but only when they are epigenetically reactivated during reprogramming of the germline. This ancient recognition mechanism may have been retained both by transposons to evade long-term heterochromatic silencing, and by their hosts for genome defence.