Pseudouridylation of messenger RNA emerges as an abundant modification involved in gene expression regulation. Pseudouridylation of stop codons in eukaryotic and bacterial cells results in stop-codon read through. The structural mechanism of this phenomenon is not known. Here we present a 3.1-A crystal structure of Escherichia coli release factor 1 (RF1) bound to the 70S ribosome in response to the PsiAA codon. The structure reveals that recognition of a modified stop codon does not differ from that of a canonical stop codon. Our in vitro biochemical results support this finding by yielding nearly identical rates for peptide release from E. coli ribosomes programmed with pseudouridylated and canonical stop codons. The crystal structure also...
Terminating protein translation accurately and efficiently is critical for both protein fidelity and...
In contrast to bacteria that have two release factors, RF1 and RF2, eukaryotes only possess one unre...
The termination of protein synthesis occurs through the specific recognition of a stop codon in the ...
Translation termination in bacteria involves precise reading of stop codons (UAA, UAG, UGA) and coor...
When the A site of the ribosome encounters a stop codon, a cytoplasmic protein release factor (RF) b...
Translation of genetic information encoded in messenger RNAs into polypeptide sequences is carried o...
Accurate translation termination by release factors (RFs) is critical for the integrity of cellular ...
The translational stop signal and polypeptide release factor (RF) complexed with Escherichia coli ri...
Termination of protein synthesis is triggered by the recognition of a stop codon at the ribosomal A ...
Stop codon recognition is a crucial event during translation termination and is performed by class I...
Stop codon recognition is a crucial event during translation termination and is performed by class I...
The decoding release factor (RF) triggers termination of protein synthesis by functionally mimicking...
The function of the decoding release factor (RF) in translation termination is to couple cognate rec...
SummaryDuring protein synthesis, translational release factors catalyze the release of the polypepti...
In contrast to bacteria that have two release factors, RF1 and RF2, eukaryotes only possess one unre...
Terminating protein translation accurately and efficiently is critical for both protein fidelity and...
In contrast to bacteria that have two release factors, RF1 and RF2, eukaryotes only possess one unre...
The termination of protein synthesis occurs through the specific recognition of a stop codon in the ...
Translation termination in bacteria involves precise reading of stop codons (UAA, UAG, UGA) and coor...
When the A site of the ribosome encounters a stop codon, a cytoplasmic protein release factor (RF) b...
Translation of genetic information encoded in messenger RNAs into polypeptide sequences is carried o...
Accurate translation termination by release factors (RFs) is critical for the integrity of cellular ...
The translational stop signal and polypeptide release factor (RF) complexed with Escherichia coli ri...
Termination of protein synthesis is triggered by the recognition of a stop codon at the ribosomal A ...
Stop codon recognition is a crucial event during translation termination and is performed by class I...
Stop codon recognition is a crucial event during translation termination and is performed by class I...
The decoding release factor (RF) triggers termination of protein synthesis by functionally mimicking...
The function of the decoding release factor (RF) in translation termination is to couple cognate rec...
SummaryDuring protein synthesis, translational release factors catalyze the release of the polypepti...
In contrast to bacteria that have two release factors, RF1 and RF2, eukaryotes only possess one unre...
Terminating protein translation accurately and efficiently is critical for both protein fidelity and...
In contrast to bacteria that have two release factors, RF1 and RF2, eukaryotes only possess one unre...
The termination of protein synthesis occurs through the specific recognition of a stop codon in the ...
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