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Antisense ribosomal siRNAs inhibit RNA polymerase I-directed transcription in<i>C. elegans</i>

Shimiao Liao, Xiangyang Chen, Ting Xu, Qile Jin, Zongxiu Xu, Demin Xu, Xufei Zhou, Chengming Zhu, Shouhong Guang, Xuezhu Feng

2021Nucleic Acids Research33 citationsDOIOpen Access PDF

Abstract

Eukaryotic cells express a wide variety of endogenous small regulatory RNAs that function in the nucleus. We previously found that erroneous rRNAs induce the generation of antisense ribosomal siRNAs (risiRNAs) which silence the expression of rRNAs via the nuclear RNAi defective (Nrde) pathway. To further understand the biological roles and mechanisms of this class of small regulatory RNAs, we conducted forward genetic screening to identify factors involved in risiRNA generation in Caenorhabditis elegans. We found that risiRNAs accumulated in the RNA exosome mutants. risiRNAs directed the association of NRDE proteins with pre-rRNAs and the silencing of pre-rRNAs. In the presence of risiRNAs, NRDE-2 accumulated in the nucleolus and colocalized with RNA polymerase I. risiRNAs inhibited the transcription elongation of RNA polymerase I by decreasing RNAP I occupancy downstream of the RNAi-targeted site. Meanwhile, exosomes mislocalized from the nucleolus to nucleoplasm in suppressor of siRNA (susi) mutants, in which erroneous rRNAs accumulated. These results established a novel model of rRNA surveillance by combining ribonuclease-mediated RNA degradation with small RNA-directed nucleolar RNAi system.

Topics & Concepts

BiologyRNA polymerase IRNA silencingNucleolusRNA-dependent RNA polymeraseRNA interferenceRNASmall interfering RNATrans-acting siRNAExosome complexCell biologyTranscription (linguistics)Small nucleolar RNASmall nuclear RNAMolecular biologyNon-coding RNAGeneticsGeneCytoplasmLinguisticsPhilosophyCRISPR and Genetic EngineeringGenetics, Aging, and Longevity in Model OrganismsRNA Research and Splicing