The C domain of translation termination factor eRF1 is close to the stop codon in the A site of the 80S ribosome |
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Authors: | K. N. Bulygin E. A. Popugaeva M. N. Repkova M. I. Meschaninova A. G. Ven’yaminova D. M. Graifer L. Yu. Frolova G. G. Karpova |
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Affiliation: | (1) Institute of Chemical Biology and Fundamental Medicine, Siberian Division, Russian Academy of Sciences, Novosibirsk, 630090, Russia;(2) Engelhardt Institute of Molecular Biology, Russian Academy of Sciences, Moscow, 119991, Russia |
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Abstract: | The arrangement of the stop codon and its 3′-flanking codon relative to the components of translation termination complexes of human 80S ribosomes was studied using mRNA analogs containing the stop signal UPuPuPu (Pu is A or G) and the photoreactive perfluoroarylazido group, which was linked to a stop-signal or 3′-flanking nucleotide (positions from +4 to +9 relative to the first nucleotide of the P-site codon). Upon mild UV irradiation, the analogs crosslinked to components of the model complexes, mimicking the state of the 80S ribosome at translation termination. Termination factors eRF1 and eRF3 did not change the relative arrangement of the stop signal and 18S rRNA. Crosslinking to eRF1 was observed for modified nucleotides in positions +5 to +9 (that for stop-codon nucleotide +4 was detected earlier). The eRF1 fragments crosslinked to the mRNA analogs were identified. Fragment 52–195, including the N domain and part of the M domain, crosslinked to the analogs carrying the reactive group at A or G in positions +5 to +9 or at the terminal phosphate of nucleotide +7. The site crosslinking to mRNA analogs containing modified G in positions +5 to +7 was assigned to eRF1 fragment 82–166 (beyond the NIKS motif). All but one analog (that with modified G in position +4) crosslinked to the C domain of eRF1 (fragment 330–422). The efficiency of crosslinking to the C domain was higher than to the N domain in most cases. It was assumed that the C domain of eRF1 bound in the A site is close to nucleotides +5 to +9, especially +7 and +8, and that eRF1 undergoes substantial conformational changes when binding to the ribosome. |
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Keywords: | eukaryotes translation termination stop codon recognition ribosome translation termination factor photocrosslinking |
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