Novel stress-inducible antisense RNAs of protein-coding loci are synthesized by RNA-dependent RNA polymerase

Our previous study identified approximately 6,000 abiotic stress-responsive non-coding transcripts existing on the antisense strand of protein-coding genes, and implied that a type of antisense RNA was synthesized from a sense RNA template by a study of RNA-dependent RNA polymerase (RDR). Expression analyses revealed that the expression of novel abiotic stress-induced antisense RNA on 1,136 gene loci was reduced in the rdr1/2/6 mutants. RNase protection indicated that the RD29A antisense RNA and other RDR1/2/6-dependent antisense RNAs are involved in the formation of double-stranded RNA. The accumulation of stress-inducible antisense RNA was decreased and increased in dcp5 and xrn4, respectively, but not changed in dcl2/3/4, nrpd1a and nrpd1b. RNA-seq analyses revealed that the majority of the RDR1/2/6-dependent antisense RNA loci did not overlap with RDR1/2/6-dependent 20-30 nt RNA loci. Additionally, rdr1/2/6 mutants decreased the degradation rate of the sense RNA, and exhibited arrested root growth during the recovery stage following a drought stress, whereas dcl2/3/4 and mutants did not. Collectively, these results indicate that RDRs have stress-inducible antisense RNA synthesis activity and a novel biological function that is different from the known endogenous small RNA pathways from protein-coding genes. These data reveal a novel mechanism of RNA regulation during abiotic stress response that involves complex RNA degradation pathways.