Substrate recognition by class I lysyl-tRNA synthetases: A molecular basis for gene displacement

Abstract

Lysyl-tRNA synthetases (LysRSs) are unique amongst the aminoacyl-tRNA synthetases in being composed of unrelated class I and class II enzymes. To allow direct comparison between the two types of LysRS, substrate recognition by class I LysRSs was examined. Genes encoding both an archaeal and a bacterial class I enzyme were able to rescue an Escherichia coli strain deficient in LysRS, indicating their ability to functionally substitute for a class II LysRS in vivo. In vitro characterization showed lysine activation and recognition to be tRNA-dependent, an attribute of several class I, but not class II, aminoacyl-tRNA synthetases. Examination of tRNA recognition showed that class I LysRSs recognize the same elements in tRNA^Lys as their class II counterparts, namely the discriminator base (N73) and the anticodon. This sequence-specific recognition of the same nucleotides in tRNA^Lys by the two unrelated types of enzyme suggests that tRNA^Lys predates at least one of the LysRSs in the evolution of the translational apparatus. The only observed variation in recognition was that the G2⋅U71 wobble pair of spirochete tRNA^Lys acts as antideterminant for class II LysRS but does not alter class I enzyme recognition. This difference in tRNA recognition strongly favors the use of a class I-type enzyme to aminoacylate particular tRNA^Lys species and provides a molecular basis for the observed displacement of class II by class I LysRSs in certain bacteria.