Abstract

Transfer RNA-derived fragments (tRFs) exist in all branches of life. They are involved in RNA degradation, regulation of gene expression, ribosome biogenesis. In archaebacteria, kinetoplastid, yeast, and human cells, they were also shown to regulate translation. In Arabidopsis, the tRFs population fluctuates under developmental or environmental conditions but their functions are yet poorly understood. Here, we show that populations of long (30-35 nt) or short (19-25 nt) tRFs produced from Arabidopsis tRNAs can inhibit <i>in vitro</i> translation of a reporter gene. Analysing a series of oligoribonucleotides mimicking natural tRFs, we demonstrate that only a limited set of tRFs possess the ability to affect protein synthesis. Out of a dozen of tRFs, only two deriving from tRNA^Ala(AGC) and tRNA^Asn(GUU) strongly attenuate translation <i>in vitro</i>. Contrary to human tRF(Ala), the 4 Gs present at the 5' extremity of Arabidopsis tRF(Ala) are not implicated in this inhibition while the G₁₈ and G₁₉ residues are essential. Protein synthesis inhibition by tRFs does not require complementarity with the translated mRNA but, having the capability to be associated with polyribosomes, tRFs likely act as general modulation factors of the translation process in plants.