Add to ORKGMistranslation can follow two events during protein synthesis: production of non-cognate amino acid:transfer RNA (tRNA) pairs by aminoacyl-tRNA synthetases (aaRSs) and inaccurate selection of aminoacyl-tRNAs by the ribosome. Many aaRSs actively edit non-cognate amino acids, but editing mechanisms are not evolutionarily conserved, and their physiological significance remains unclear. To address the connection between aaRSs and mistranslation, the evolutionary divergence of tyrosine editing by phenylalanyl-tRNA synthetase (PheRS) was used as a model. Certain PheRSs are naturally error prone, most notably a Mycoplasma example that displayed a low level of specificity consistent with elevated mistranslation of the proteome. Mycoplasma PheRS was...
Non-protein amino acids, particularly isomers of the proteinogenic amino acids, present a threat to ...
Aminoacyl-tRNA synthetases use a variety of mechanisms to ensure fidelity of the genetic code and ul...
Mechanisms have evolved to prevent errors in replication, transcription, and translation of genetic ...
Translation is a highly accurate process with an overall error rate of only about 10-4. The fidelity...
Accurate selection of amino acids is essential for faithful translation of the genetic code. Errors ...
Quality control operates at different steps in translation to limit errors to approximately one mist...
The fidelity of translation is determined at two major points: the accuracy of aminoacyl-tRNA select...
Translational quality control is monitored at several steps, including substrate selection by aminoa...
Faithful translation of mRNA into the corresponding polypeptide is a complex multistep process, requ...
Translation is an essential cellular process, resulting in the synthesis of proteins (1). While tran...
A critical step in gene expression is the faithful translation of protein from messenger RNA. This p...
Aminoacyl-tRNA synthetases (aaRSs) set up the genetic code by covalently attaching the amino acids t...
One integral step in the transition from a nucleic acid encoded-genome to functional proteins is the...
In recent years, numerous defects in tRNA biogenesis and related processes, including tRNA aminoacyl...
Transfer RNAs (tRNAs) are essential for protein synthesis and translation fidelity. Some human tRNA ...
Non-protein amino acids, particularly isomers of the proteinogenic amino acids, present a threat to ...
Aminoacyl-tRNA synthetases use a variety of mechanisms to ensure fidelity of the genetic code and ul...
Mechanisms have evolved to prevent errors in replication, transcription, and translation of genetic ...
Translation is a highly accurate process with an overall error rate of only about 10-4. The fidelity...
Accurate selection of amino acids is essential for faithful translation of the genetic code. Errors ...
Quality control operates at different steps in translation to limit errors to approximately one mist...
The fidelity of translation is determined at two major points: the accuracy of aminoacyl-tRNA select...
Translational quality control is monitored at several steps, including substrate selection by aminoa...
Faithful translation of mRNA into the corresponding polypeptide is a complex multistep process, requ...
Translation is an essential cellular process, resulting in the synthesis of proteins (1). While tran...
A critical step in gene expression is the faithful translation of protein from messenger RNA. This p...
Aminoacyl-tRNA synthetases (aaRSs) set up the genetic code by covalently attaching the amino acids t...
One integral step in the transition from a nucleic acid encoded-genome to functional proteins is the...
In recent years, numerous defects in tRNA biogenesis and related processes, including tRNA aminoacyl...
Transfer RNAs (tRNAs) are essential for protein synthesis and translation fidelity. Some human tRNA ...
Non-protein amino acids, particularly isomers of the proteinogenic amino acids, present a threat to ...
Aminoacyl-tRNA synthetases use a variety of mechanisms to ensure fidelity of the genetic code and ul...
Mechanisms have evolved to prevent errors in replication, transcription, and translation of genetic ...