César Llave

Micro-RNAs (miRNAs) are regulatory molecules that mediate effects by interacting with messenger RNA (mRNA) targets. Here we show that Arabidopsis thaliana miRNA 39 (also known as miR171), a 21-ribonucleotide species that accumulates predominantly in inflorescence tissues, is produced from an intergenic region in chromosome III and functionally interacts with mRNA targets encoding several members of the Scarecrow-like (SCL) family of putative transcription factors. miRNA 39 is complementary to an internal region of three SCL mRNAs. The interaction results in specific cleavage of target mRNA within the region of complementarity, indicating that this class of miRNA functions like small interfering RNA associated with RNA silencing to guide sequence-specific cleavage in a developmentally controlled manner.

A large set of endogenous small RNAs of predominantly 21 to 24 nucleotides was identified in Arabidopsis. These small RNAs resembled micro-RNAs from animals and were similar in size to small interfering RNAs that accumulated during RNA silencing triggered by multiple types of inducers. Among the 125 sequences identified, the vast majority (90%) arose from intergenic regions, although small RNAs corresponding to predicted protein-coding genes, transposon-like sequences, and a structural RNA gene also were identified. Evidence consistent with the derivation of small RNAs of both polarities, and from highly base-paired precursors, was obtained through the identification and analysis of clusters of small RNA loci. The accumulation of specific small RNAs was regulated developmentally. We propose that Arabidopsis small RNAs participate in a wide range of post-transcriptional and epigenetic events.

Certain plant viruses encode suppressors of posttranscriptional gene silencing (PTGS), an adaptive antiviral defense response that limits virus replication and spread. The tobacco etch potyvirus protein, helper component-proteinase (HC-Pro), suppresses PTGS of silenced transgenes. The effect of HC-Pro on different steps of the silencing pathway was analyzed by using both transient Agrobacterium tumefaciens-based delivery and transgenic systems. HC-Pro inactivated PTGS in plants containing a preexisting silenced beta-glucuronidase (GUS) transgene. PTGS in this system was associated with both small RNA molecules (21-26 nt) corresponding to the 3' proximal region of the transcribed GUS sequence and cytosine methylation of specific sites near the 3' end of the GUS transgene. Introduction of HC-Pro into these plants resulted in loss of PTGS, loss of small RNAs, and partial loss of methylation. These results suggest that HC-Pro targets a PTGS maintenance (as opposed to an initiation or signaling) component at a point that affects accumulation of small RNAs and methylation of genomic DNA.