Modifications at the wobble position (position 34) of tRNA facilitate interactions that enable or stabilize non-Watson-Crick basepairs. In bacterial tRNA, 5-hydroxyuridine (ho5U) derivatives xo5U [x: methyl (mo5U), carboxymethyl (cmo5U), and methoxycarbonylmethyl (mcmo5U)] present at the wobble positions of tRNAs are responsible for recognition of NYN codon families. These modifications of U34 allow basepairing not only with A and G but also with U and in some cases C. mo5U was originally found in Gram-positive bacteria, and cmo5U and mcmo5U were found in Gram-negative bacteria. tRNAs of Mycoplasma species, mitochondria, and chloroplasts adopt four-way decoding in which unmodified U34 recognizes codons ending in A, G, C, and U. Lactobacillus casei, Gram-positive bacteria and lactic acid bacteria, lacks the modification enzyme genes for xo5U biosynthesis. Nevertheless, L. casei has only one type of tRNAVal with the anticodon UAC [tRNAVal(UAC)]. However, the genome of L. casei encodes an undetermined tRNA (tRNAUnd) gene, and the sequence corresponding to the anticodon region is GAC. Here, we confirm that U34 in L. casei tRNAVal is unmodified and that there is no tRNAUnd expression in the cells. In addition, in vitro transcribed tRNAUnd was not aminoacylated by L. casei valyl-tRNA synthetase suggesting that tRNAUnd is not able to accept valine, even if expressed in cells. Correspondingly, native tRNAVal(UAC) with unmodified U34 bound to all four valine codons in the ribosome A site. This suggests that L. casei tRNAVal decodes all valine codons by four-way decoding, similarly to tRNAs from Mycoplasma species, mitochondria, and chloroplasts.
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