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Evolutionarily conserved inhibitory uORFs sensitize <i>Hox</i> mRNA translation to start codon selection stringency

Ivaylo P. Ivanov, James A. Saba, Chen‐Ming Fan, Ji Wang, Andrew E. Firth, Chune Cao, Rachel Green, Thomas Dever

2022Proceedings of the National Academy of Sciences43 citationsDOIOpen Access PDF

Abstract

Significance Cellular protein synthesis relies on faithful selection of the translation start codon by the ribosome. Initiation at alternative sites on a messenger RNA (mRNA) impairs production of native proteins, triggers synthesis of junk proteins, and enables regulation of translation. The nucleotide sequence flanking a start codon controls its efficiency of selection. We identify mRNAs containing start codons in conserved poor sequence contexts, including several Hox mRNAs encoding regulators of the body plan. Other Hox mRNAs contain conserved upstream open reading frames with poor start codon contexts that sensitize translation to changes in start codon selection stringency. Thus, alterations in start codon selection stringency has the potential to regulate global gene expression programs, including Hox gene-directed body plan formation in animals.

Topics & Concepts

Translation (biology)Hox geneStart codonBiologySelection (genetic algorithm)GeneticsMessenger RNAConserved sequenceComputational biologyGeneBase sequenceGene expressionComputer scienceArtificial intelligenceRNA and protein synthesis mechanismsRNA Research and SplicingRNA modifications and cancer
Evolutionarily conserved inhibitory uORFs sensitize <i>Hox</i> mRNA translation to start codon selection stringency | Litcius