| Literature DB >> 28601219 |
Paul F Agris1, Amithi Narendran2, Kathryn Sarachan2, Ville Y P Väre2, Emily Eruysal2.
Abstract
The posttranscriptional modifications of tRNA's anticodon stem and loop (ASL) domain represent a third level, a third code, to the accuracy and efficiency of translating mRNA codons into the correct amino acid sequence of proteins. Modifications of tRNA's ASL domain are enzymatically synthesized and site specifically located at the anticodon wobble position-34 and 3'-adjacent to the anticodon at position-37. Degeneracy of the 64 Universal Genetic Codes and the limitation in the number of tRNA species require some tRNAs to decode more than one codon. The specific modification chemistries and their impact on the tRNA's ASL structure and dynamics enable one tRNA to decode cognate and "wobble codons" or to expand recognition to synonymous codons, all the while maintaining the translational reading frame. Some modified nucleosides' chemistries prestructure tRNA to read the two codons of a specific amino acid that shares a twofold degenerate codon box, and other chemistries allow a different tRNA to respond to all four codons of a fourfold degenerate codon box. Thus, tRNA ASL modifications are critical and mutations in genes for the modification enzymes and tRNA, the consequences of which is a lack of modification, lead to mistranslation and human disease. By optimizing tRNA anticodon chemistries, structure, and dynamics in all organisms, modifications ensure translational fidelity of mRNA transcripts.Entities:
Keywords: Codon degeneracy and decoding; Human disease and tRNA modifications; Modification chemistry and structure; Modifications 3′-adjacent to the anticodon; Modifications prestructure tRNA; Wobble position tRNA modifications
Mesh:
Substances:
Year: 2017 PMID: 28601219 PMCID: PMC8118379 DOI: 10.1016/bs.enz.2017.03.005
Source DB: PubMed Journal: Enzymes ISSN: 1874-6047