Yeast gene KTI13 (alias DPH8) operates in the initiation step of diphthamide 
synthesis on elongation factor 2

Arend, Meike; Ütkür, Koray; Hawer, Harmen; Mayer, Klaus; Ranjan, Namit; Adrian, Lorenz; Brinkmann, Ulrich; Schaffrath, Raffael

doi:10.15698/mic2023.09.804

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Yeast gene KTI13 (alias DPH8) operates in the initiation step of diphthamide synthesis on elongation factor 2

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Ranjan, Namit
Max Planck Institute for Multidisciplinary Sciences, Max Planck Society;

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Citation

Arend, M., Ütkür, K., Hawer, H., Mayer, K., Ranjan, N., Adrian, L., et al. (2023). Yeast gene KTI13 (alias DPH8) operates in the initiation step of diphthamide synthesis on elongation factor 2. Microbial Cell, 10(9), 195-203. doi:10.15698/mic2023.09.804.

Cite as: https://hdl.handle.net/21.11116/0000-000D-CF33-1

Abstract

In yeast, Elongator-dependent tRNA modifications are regulated by the Kti11•Kti13 dimer and hijacked for cell killing by zymocin, a tRNase ribotoxin. Kti11 (alias Dph3) also controls modification of elongation factor 2 (EF2) with diphthamide, the target for lethal ADP-ribosylation by diphtheria toxin (DT). Diphthamide formation on EF2 involves four biosynthetic steps encoded by the DPH1-DPH7 network and an ill-defined KTI13 function. On further examining the latter gene in yeast, we found that kti13Δ null-mutants maintain unmodified EF2 able to escape ADP-ribosylation by DT and to survive EF2 inhibition by sordarin, a diphthamide-dependent antifungal. Consistently, mass spectrometry shows kti13Δ cells are blocked in proper formation of amino-carboxyl-propyl-EF2, the first diphthamide pathway intermediate. Thus, apart from their common function in tRNA modification, both Kti11/Dph3 and Kti13 share roles in the initiation step of EF2 modification. We suggest an alias KTI13/DPH8 nomenclature indicating dual-functionality analogous to KTI11/DPH3.