tRNA binding to Kti12 is crucial for wobble uridine modification by Elongator

In yeast, tRNA modifications that are introduced by the Elongator complex are recognized by zymocin, a fungal tRNase killer toxin that cleaves the anticodon. Based on zymocin resistance conferred by mutations in KTI12, a gene coding for an Elongator interactor, we further examined the yet vaguely defined cellular role of Kti12. Guided by structural similarities between Kti12 and PSTK, a tRNA kinase involved in selenocysteine synthesis, we identified conserved basic residues in the C-terminus of Kti12, which upon site-directed mutagenesis caused progressive loss of tRNA binding in vitro. The inability of Kti12 to bind tRNA led to similar phenotypes caused by Elongator inactivation in vivo. Consistently, tRNA binding deficient kti12 mutants drastically suppressed Elongator dependent tRNA anticodon modifications and reduced the capacity of Kti12 to interact with Elongator. We further could distinguish Elongator unbound pools of Kti12 in a tRNA dependent manner from bound ones. In summary, the C-terminal domain of Kti12 is crucial for tRNA binding and Kti12 recruitment to Elongator, which are both requirements for Elongator function suggesting Kti12 is a tRNA carrier that interacts with Elongator for modification of the tRNA anticodon.

Keywords (eng)

RNA, Transfer MetabolismRNA, Transfer ChemistryUridine MetabolismSaccharomyces Cerevisiae Proteins MetabolismSaccharomyces Cerevisiae Proteins ChemistrySaccharomyces Cerevisiae Proteins GeneticsSaccharomyces Cerevisiae GeneticsSaccharomyces cerevisia MetabolismProtein BindingAnticodon MetabolismMutationKiller Factors, Yeast MetabolismAmino Acid Sequence

Type (eng)

journal article

Language

[eng]

Persistent identifier

https://phaidra.vetmeduni.ac.at/o:4101

DOI

10.1093/nar/gkaf296

Is in series

Title (eng)

Nucleic Acids Research

Volume