A genomic database furnishes minimal functional glycyl-tRNA synthetases homologous to other, designed class II urzymes
(database[TitleAbstract]) AND (Nucleic acids research[Journal]) 2024-11-12
Nucleic Acids Res. 2024 Nov 4:gkae992. doi: 10.1093/nar/gkae992. Online ahead of print.
ABSTRACT
The hypothesis that conserved core catalytic sites could represent ancestral aminoacyl-tRNA synthetases (AARS) drove the design of functional TrpRS, LeuRS, and HisRS 'urzymes'. We describe here new urzymes detected in the genomic record of the arctic fox, Vulpes lagopus. They are homologous to the α-subunit of bacterial heterotetrameric Class II glycyl-tRNA synthetase (GlyRS-B) enzymes. AlphaFold2 predicted that the N-terminal 81 amino acids would adopt a 3D structure nearly identical to our designed HisRS urzyme (HisCA1). We expressed and purified that N-terminal segment and the spliced open reading frame GlyCA1-2. Both exhibit robust single-turnover burst sizes and ATP consumption rates higher than those previously published for HisCA urzymes and comparable to those for LeuAC and TrpAC. GlyCA is more than twice as active in glycine activation by adenosine triphosphate as the full-length GlyRS-B α2 dimer. Michaelis-Menten rate constants for all three substrates reveal significant coupling between Exon2 and both substrates. GlyCA activation favors Class II amino acids that complement those favored by HisCA and LeuAC. Structural features help explain these results. These minimalist GlyRS catalysts are thus homologous to previously described urzymes. Their properties reinforce the notion that urzymes may have the requisite catalytic activities to implement a reduced, ancestral genetic coding alphabet.
PMID:39494520 | DOI:10.1093/nar/gkae992