Apart from their primordial role in protein synthesis, tRNAs can be cleaved to produce tRNA-derived small RNAs (tsRNAs). The biological functions of tsRNAs in plants remain largely unknown. In this study, we developed RtcB ligation-based small RNA (sRNA) sequencing, a method that captures and distinguishes between 3'-2',3'-cyclic-phosphate (cP)/phosphate (P)-terminated sRNAs and 3'-OH-terminated sRNAs, and profiled 5' tsRNAs and 5' tRNA halves in Arabidopsis thaliana. We found that Arabidopsis 5' tsRNAs and 5' tRNA halves predominantly contain a cP at the 3' end and require S-like RNase 1 (RNS1) and RNS3 for their production. One of the most abundant 5' tsRNAs, 5' tsR-Ala, by associating with AGO1, negatively regulates Cytochrome P450 71A13 (CYP71A13) expression and camalexin biosynthesis to repress anti-fungal defense. Interestingly, 5' tsR-Ala is downregulated upon fungal infection. Our study provides a global view of 5' tsRNAs and 5' tRNA halves in Arabidopsis and unravels an important role of a 5' tsRNA in regulating anti-fungal defense.
Keywords: CYP71A13; RNase T2; disease resistance; small RNA sequencing; tRNA-derived small RNAs.
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