2021
DOI: 10.1101/2021.08.16.456581
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Specific length and structure rather than high thermodynamic stability enable regulatory mRNA stem-loops to pause translation

Abstract: Translating ribosomes unwind mRNA secondary structures by three basepairs each elongation cycle. Despite the ribosome helicase, certain mRNA stem-loops stimulate programmed ribosomal frameshift by inhibiting translation elongation. Here, using mutagenesis, biochemical and single-molecule experiments, we examine whether high stability of three basepairs, which are unwound by the translating ribosome, is critical for inducing ribosome pauses. We find that encountering frameshift-inducing mRNA stem-loops from the… Show more

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Cited by 4 publications
(2 citation statements)
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“…5I) that is not evident in the global duplexes detected by PARIS. This requirement for specific lengths and structural conformations, rather than thermodynamic stability, to enable regulatory function is reminiscent of one recently described in the context of ribosome stalling (29).…”
Section: Resultsmentioning
confidence: 79%
“…5I) that is not evident in the global duplexes detected by PARIS. This requirement for specific lengths and structural conformations, rather than thermodynamic stability, to enable regulatory function is reminiscent of one recently described in the context of ribosome stalling (29).…”
Section: Resultsmentioning
confidence: 79%
“…Although folding models suggest that m1 and m1m5 have equivalent potential to sequester the annotated site, the strong cryptic site in m1m5 may be disfavored for residual splicing, either because it is slightly weaker than m1 or because m1m5 itself becomes partially sequestered in stem 3 (Figure 4). A caveat to these interpretations is that secondary structure has a complex role in alternative splicing [12], and the predicted stability of stem loop structures may not be as critical as specific structures in determining RNA functionality [40].…”
Section: Discussionmentioning
confidence: 99%