FB2026_02 , released June 18, 2026
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Citation
Pamudurti, N.R., Patop, I.L., Krishnamoorthy, A., Ashwal-Fluss, R., Bartok, O., Kadener, S. (2020). An in vivo strategy for knockdown of circular RNAs.  Cell Discov. 6(1): 52.
FlyBase ID
FBrf0246465
Publication Type
Research paper
Abstract
Exonic circular RNAs (circRNAs) are highly abundant RNAs generated mostly from exons of protein-coding genes. Assaying the functions of circRNAs is not straightforward as common approaches for circRNA depletion tend to also alter the levels of mRNAs generated from the hosting gene. Here we describe a methodology for specific knockdown of circRNAs in vivo with tissue and cell resolution. We also describe an experimental and computational platform for determining the potential off-target effects as well as for verifying the obtained phenotypes. Briefly, we utilize shRNAs targeted to the circRNA-specific back-splice junction to specifically downregulate the circRNA. We utilized this methodology to downregulate five circRNAs that are highly expressed in Drosophila. There were no effects on the levels of their linear counterparts or any RNA with complementarity to the expressed shRNA. Interestingly, downregulation of circCtrip resulted in developmental lethality that was recapitulated with a second shRNA. Moreover, downregulation of individual circRNAs caused specific changes in the fly head transcriptome, suggesting roles for these circRNAs in the fly nervous system. Together, our results provide a methodological approach that enables the comprehensive study of circRNAs at the organismal and cellular levels and generated for the first time flies in which specific circRNAs are downregulated.
PubMed ID
PubMed Central ID
PMC7417560 (PMC) (EuropePMC)
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Secondary IDs
  • FBrf0250184
Language of Publication
English
Additional Languages of Abstract
Parent Publication
Publication Type
Journal
Abbreviation
Cell Discov.
Title
Cell discovery
ISBN/ISSN
2056-5968
Data From Reference
Genes (6)