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The functions of a 5′ tRNA-Ala-derived fragment in gene expression

Yuanyuan Li, Junping Gao, Ying Wang, Jun Cai, Dousheng Wu, Long Wang, Wenxuan Pu, Feng Yu, Sirui Zhu

2023PLANT PHYSIOLOGY17 citationsDOIOpen Access PDF

Abstract

Transfer RNA (tRNA) can produce smaller RNA fragments called tRNA-derived fragments (tRFs). tRFs play critical roles in multiple cellular programs, although the functional mechanisms of tRFs remain largely unknown in plants. In this study, we examined the phenotype associated with 5' tRF-Ala (tRF-Ala, produced from tRNA-Ala) overexpression and knockdown lines (tDR-Ala-OE and tDR-Ala-kd, respectively) and the mechanisms by which tRF-Ala affects mRNA levels in Arabidopsis (Arabidopsis thaliana). We investigated the candidate proteins associated with tRF-Ala by quantitative proteomics and confirmed the direct interaction between tRF-Ala and the splicing factor SERINE-ARGININE RICH PROTEIN 34 (SR34). A transcriptome sequencing analysis showed that 318 genes among all the genes (786) with substantial alternative splicing (AS) variance in tDR-Ala-OE lines are targets of SR34. tRF-Ala diminished the binding affinity between SR34 and its targets by direct competition for interaction with SR34. These findings reveal the critical roles of tRF-Ala in regulating mRNA levels and splicing.

Topics & Concepts

RNA splicingBiologyGeneTransfer RNATranscriptomeArabidopsisGene knockdownArabidopsis thalianaRNA-binding proteinAlternative splicingGeneticsRNAGene expressionMessenger RNASplicing factorCell biologyMolecular biologyMutantRNA modifications and cancerRNA and protein synthesis mechanismsRNA Research and Splicing