Structural basis of tRNAPro acceptor stem recognition by a bacterial trans-editing domain

Autor: Xiao Ma, Marina Bakhtina, Irina Shulgina, William A Cantara, Alexandra B Kuzmishin Nagy, Yuki Goto, Hiroaki Suga, Mark P Foster, Karin Musier-Forsyth
Rok vydání: 2023
Předmět:
Zdroj: Nucleic Acids Research. 51:3988-3999
ISSN: 1362-4962
0305-1048
Popis: High fidelity tRNA aminoacylation by aminoacyl-tRNA synthetases is essential for cell viability. ProXp-ala is a trans-editing protein that is present in all three domains of life and is responsible for hydrolyzing mischarged Ala-tRNAPro and preventing mistranslation of proline codons. Previous studies have shown that, like bacterial prolyl-tRNA synthetase, Caulobacter crescentus ProXp-ala recognizes the unique C1:G72 terminal base pair of the tRNAPro acceptor stem, helping to ensure deacylation of Ala-tRNAPro but not Ala-tRNAAla. The structural basis for C1:G72 recognition by ProXp-ala is still unknown and was investigated here. NMR spectroscopy, binding, and activity assays revealed two conserved residues, K50 and R80, that likely interact with the first base pair, stabilizing the initial protein-RNA encounter complex. Modeling studies are consistent with direct interaction between R80 and the major groove of G72. A third key contact between A76 of tRNAPro and K45 of ProXp-ala was essential for binding and accommodating the CCA-3′ end in the active site. We also demonstrated the essential role that the 2′OH of A76 plays in catalysis. Eukaryotic ProXp-ala proteins recognize the same acceptor stem positions as their bacterial counterparts, albeit with different nucleotide base identities. ProXp-ala is encoded in some human pathogens; thus, these results have the potential to inform new antibiotic drug design.
Databáze: OpenAIRE