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<scp>AARS</scp> Online: A collaborative database on the structure, function, and evolution of the aminoacyl‐ <scp>tRNA</scp> synthetases

Jordan Douglas, Haissi Cui, John J. Perona, Oscar Vargas‐Rodriguez, Henna Tyynismaa, Claudia Álvarez-Carreño, Jiqiang Ling, Lluı́s Ribas de Pouplana, Xiang‐Lei Yang, Michael Ibba, H. Becker, Frédéric Fischer, Marie Sissler, Charles W. Carter, Peter R. Wills

2024IUBMB Life16 citationsDOIOpen Access PDF

Abstract

The aminoacyl-tRNA synthetases (aaRS) are a large group of enzymes that implement the genetic code in all known biological systems. They attach amino acids to their cognate tRNAs, moonlight in various translational and non-translational activities beyond aminoacylation, and are linked to many genetic disorders. The aaRS have a subtle ontology characterized by structural and functional idiosyncrasies that vary from organism to organism, and protein to protein. Across the tree of life, the 22 coded amino acids are handled by 16 evolutionary families of Class I aaRS and 21 families of Class II aaRS. We introduce AARS Online, an interactive Wikipedia-like tool curated by an international consortium of field experts. This platform systematizes existing knowledge about the aaRS by showcasing a taxonomically diverse selection of aaRS sequences and structures. Through its graphical user interface, AARS Online facilitates a seamless exploration between protein sequence and structure, providing a friendly introduction to the material for non-experts and a useful resource for experts. Curated multiple sequence alignments can be extracted for downstream analyses. Accessible at www.aars.online, AARS Online is a free resource to delve into the world of the aaRS.

Topics & Concepts

Aminoacyl tRNA synthetaseFunction (biology)Transfer RNAChemistryComputational biologyBiologyBiochemistryCell biologyRNAGeneRNA and protein synthesis mechanismsGenomics and Phylogenetic StudiesMachine Learning in Bioinformatics