How does Euplotes translation termination factor eRF1 fail to recognize the UGA stop codon?
Autor: | L. Bidou, Peter M. Kolosov, L. Yu. Frolova, Jean-Pierre Rousset, Lev L. Kisselev, Sergey Lekomtsev |
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Rok vydání: | 2007 |
Předmět: | |
Zdroj: | Molecular Biology. 41:924-931 |
ISSN: | 1608-3245 0026-8933 |
Popis: | Class 1 eukaryotic release factor 1 (eRF1) recognizes all three stop codons (UAA, UAG, and UGA) in standard-code organisms. In some ciliates with variant genetic codes, one or two stop codons are used to encode amino acids and are not recognized by eRF1; e.g., UAA and UAG are reassigned to Gln in Stylonychia and UGA is reassigned to Cys in Euplotes. Stop codon recognition is due to the N-terminal domain of eRF1 in standard-code organisms. Since variant-code ciliates most likely originate from universal-code ancestors, the N-domain sequence of their eRF1 was assumed to harbor the residues that are responsible for the changes in stop codon recognition specificity. To identify the N-domain regions determining the UGA-only specificity of Euplotes aediculatus eRF1, chimeric proteins were constructed by swapping various N-domain fragments of the E. aediculatus for their human counterparts; the MC domain was from human eRF1. Functional analysis of the chimeric eRF1 in vivo revealed two regions (residues 38–50 and 123–145) restricting the E. aediculatus eRF1 specificity to UAR. The change in stop codon recognition specificity of eRF1 was regarded as the first step in the origin of the variant genetic code in ciliates. |
Databáze: | OpenAIRE |
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