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Pseudouridine-mediated stop codon readthrough in <i>S. cerevisiae</i> is sequence context–independent

Hironori Adachi, Yi‐Tao Yu

2020RNA36 citationsDOIOpen Access PDF

Abstract

We have previously shown that when the uridine of a stop codon (UAA, UAG, or UGA) is pseudouridylated, the ribosome reads through the modified stop codon. However, it is not clear as to whether or not the pseudouridine (Ψ)-mediated readthrough is dependent on the sequence context of mRNA. Here, we use several different approaches and the yeast system to address this question. We show that when a stop codon (premature termination codon, PTC) is introduced into the coding region of a reporter mRNA at several different positions (with different sequence contexts) and pseudouridylated, we detect similar levels of readthrough. Using mutational and selection/screen analyses, we also show that the upstream sequence (relative to PTC) as well as the nucleotides surrounding the PTC (upstream and downstream) play a minimal role (if at all) in Ψ-mediated ribosome readthrough. Interestingly, we detect no suppression of NMD (nonsense-mediated mRNA decay) by targeted PTC pseudouridylation in the yeast system. Our results indicate that Ψ-mediated nonsense suppression occurs at the translational level, and that the suppression is sequence context-independent, unlike some previously characterized rare stop codon readthrough events.

Topics & Concepts

BiologyStop codonPseudouridineGeneticsNonsense-mediated decayStart codonNonsense mutationCoding regionContext (archaeology)Transfer RNATranslation (biology)Open reading frameMessenger RNAGeneRNAPeptide sequenceMutationRNA splicingMissense mutationPaleontologyRNA and protein synthesis mechanismsRNA modifications and cancerRNA Research and Splicing
Pseudouridine-mediated stop codon readthrough in <i>S. cerevisiae</i> is sequence context–independent | Litcius