Glutamate versus glutamine exchange swaps substrate selectivity in tRNA-guanine transglycosylase: insight into the regulation of substrate selectivity by kinetic and crystallographic studies

Bacterial tRNA-guanine transglycosylase (Tgt) catalyses the exchange of guanine in the wobble position of particular tRNAs by the modified base preQ₁. In vitro, however, the enzyme is also able to insert the immediate biosynthetic precursor, preQ₀, into those tRNAs. This substrate promiscuity is based on a peptide switch in the active site, gated by the general acid/base Glu235. The switch alters the properties of the binding pocket to allow either the accommodation of guanine or preQ₁. The peptide conformer recognising guanine, however, is also able to bind preQ₀. To investigate selectivity regulation, kinetic data for Zymomonas mobilis Tgt were recorded. They show that selectivity in favour of the actual substrate preQ₁ over preQ₀ is not achieved by a difference in affinity but via a higher turnover rate. Moreover, a Tgt(Glu235Gln) variant was constructed. The mutation was intended to stabilise the peptide switch in the conformation favouring guanine and preQ₀ binding. Kinetic characterisation of the mutated enzyme revealed that the Glu235Gln exchange has, with respect to all substrate bases, no significant influence on k_cat. In contrast, K_M(preQ₁) is drastically increased, while K_M(preQ₀) seems to be decreased. Hence, regarding k_cat/K_M as an indicator for catalytic efficiency, selectivity of Tgt in favour of preQ₁ is abolished or even inverted in favour of preQ₀ for Tgt(Glu235Gln). Crystal structures of the mutated enzyme confirm that the mutation strongly favours the binding pocket conformation required for the accommodation of guanine and preQ₀. The way this is achieved, however, significantly differs from that predicted based on crystal structures of wild-type Tgt.