A circular split nanoluciferase reporter for validating and screening putative internal ribosomal entry site elements

  1. Samie R. Jaffrey1
  1. 1Department of Pharmacology, Weill Cornell Medicine, Cornell University, New York, New York 10065, USA
  2. 2Imperial College Centre for Synthetic Biology, Imperial College London, London SW7 2AZ, United Kingdom
  3. 3Department of Bioengineering, Imperial College London, London SW7 2AZ, United Kingdom
  1. Corresponding author: srj2003{at}med.cornell.edu
  1. Handling editor: Fatima Gebauer

Abstract

Internal ribosomal entry sites (IRESs) recruit the ribosome to promote translation, typically in an m7G cap-independent manner. Although IRESs are well-documented in viral genomes, they have also been reported in mammalian transcriptomes, where they have been proposed to mediate cap-independent translation of mRNAs. However, subsequent studies have challenged the idea of these “cellular” IRESs. Current methods for screening and discovering IRES activity rely on a bicistronic reporter assay, which is prone to producing false positive signals if the putative IRES sequence has a cryptic promoter or cryptic splicing sites. Here, we report an assay for screening IRES activity using a genetically encoded circular RNA comprising a split nanoluciferase (nLuc) reporter. The circular split nLuc reporter is less susceptible to the various sources of false positives that adversely affect the bicistronic IRES reporter assay and provides a streamlined method for screening IRES activity. Using the circular split nLuc reporter, we find that nine reported cellular IRESs have minimal IRES activity. Overall, the circular split nLuc reporter offers a simplified approach for identifying and validating IRESs and exhibits reduced propensity for producing the types of false positives that can occur with the bicistronic reporter assay.

Keywords

  • Received February 26, 2024.
  • Accepted July 14, 2024.

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