Short tRNA anticodon stem and mutant eRF1 allow stop codon reassignment.

Cognate tRNAs deliver specific amino acids to translating ribosomes according to the standard genetic code, and three codons with no cognate tRNAs serve as stop codons. Some protists have reassigned all stop codons as sense codons, neglecting this fundamental principle1-4. Here we analyse the in-frame stop codons in 7,259 predicted protein-coding genes of a previously undescribed trypanosomatid, Blastocrithidia nonstop. We reveal that in this species in-frame stop codons are underrepresented in genes expressed at high levels and that UAA serves as the only termination codon. Whereas new tRNAsGlu fully cognate to UAG and UAA evolved to reassign these stop codons, the UGA reassignment followed a different path through shortening the anticodon stem of tRNATrpCCA from five to four base pairs (bp). The canonical 5-bp tRNATrp recognizes UGG as dictated by the genetic code, whereas its shortened 4-bp variant incorporates tryptophan also into in-frame UGA. Mimicking this evolutionary twist by engineering both variants from B. nonstop, Trypanosoma brucei and Saccharomyces cerevisiae and expressing them in the last two species, we recorded a significantly higher readthrough for all 4-bp variants. Furthermore, a gene encoding B. nonstop release factor 1 acquired a mutation that specifically restricts UGA recognition, robustly potentiating the UGA reassignment. Virtually the same strategy has been adopted by the ciliate Condylostoma magnum. Hence, we describe a previously unknown, universal mechanism that has been exploited in unrelated eukaryotes with reassigned stop codons. © 2023. The Author(s), under exclusive licence to Springer Nature Limited.

Citation

Ambar Kachale, Zuzana Pavlíková, Anna Nenarokova, Adriana Roithová, Ignacio M Durante, Petra Miletínová, Kristína Záhonová, Serafim Nenarokov, Jan Votýpka, Eva Horáková, Robert L Ross, Vyacheslav Yurchenko, Petra Beznosková, Zdeněk Paris, Leoš Shivaya Valášek, Julius Lukeš. Short tRNA anticodon stem and mutant eRF1 allow stop codon reassignment. Nature. 2023 Jan;613(7945):751-758

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PMID: 36631608

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