Nt-acetylation-independent turnover of SQUALENE EPOXIDASE 1 by Arabidopsis DOA10-like E3 ligases

A - Papers appearing in refereed journals

Etherington, R. D., Bailey, M., Boyer, J-B., Armbruster, L., Cao, X., Coates, J. C., Meinnel, T., Wirtz, M., Giglione, C. and Gibbs, D. J. 2023. Nt-acetylation-independent turnover of SQUALENE EPOXIDASE 1 by Arabidopsis DOA10-like E3 ligases. Plant Physiology. 193 (3), p. 2086–2104. https://doi.org/10.1093/plphys/kiad406

AuthorsEtherington, R. D., Bailey, M., Boyer, J-B., Armbruster, L., Cao, X., Coates, J. C., Meinnel, T., Wirtz, M., Giglione, C. and Gibbs, D. J.
Abstract

The acetylation-dependent (Ac/)N-degron pathway degrades proteins through recognition of their acetylated N-termini (Nt) by E3 ligases called Ac/N-recognins. To date, specific Ac/N-recognins have not been defined in plants. Here we used molecular, genetic, and multiomics approaches to characterize potential roles for Arabidopsis (Arabidopsis thaliana) DEGRADATION OF ALPHA2 10 (DOA10)-like E3 ligases in the Nt-acetylation-(NTA)-dependent turnover of proteins at global- and protein-specific scales. Arabidopsis has two endoplasmic reticulum (ER)-localized DOA10-like proteins. AtDOA10A, but not the Brassicaceae-specific AtDOA10B, can compensate for loss of yeast (Saccharomyces cerevisiae) ScDOA10 function. Transcriptome and Nt-acetylome profiling of an Atdoa10a/b RNAi mutant revealed no obvious differences in the global NTA profile compared to wild type, suggesting that AtDOA10s do not regulate the bulk turnover of NTA substrates. Using protein steady-state and cycloheximide-chase degradation assays in yeast and Arabidopsis, we showed that turnover of ER-localized SQUALENE EPOXIDASE 1 (AtSQE1), a critical sterol biosynthesis enzyme, is mediated by AtDOA10s. Degradation of AtSQE1 in planta did not depend on NTA, but Nt-acetyltransferases indirectly impacted its turnover in yeast, indicating kingdom-specific differences in NTA and cellular proteostasis. Our work suggests that, in contrast to yeast and mammals, targeting of Nt-acetylated proteins is not a major function of DOA10-like E3 ligases in Arabidopsis and provides further insight into plant ERAD and the conservation of regulatory mechanisms controlling sterol biosynthesis in eukaryotes.

Year of Publication2023
JournalPlant Physiology
Journal citation193 (3), p. 2086–2104
Digital Object Identifier (DOI)https://doi.org/10.1093/plphys/kiad406
PubMed ID37427787
Web address (URL)https://doi.org/10.1093/plphys/kiad406
Open accessPublished as ‘gold’ (paid) open access
FunderBiotechnology and Biological Sciences Research Council
European Research Council
China Scholarship Council
Funder project or codeBB/M020568/1
Publisher's version
Supplemental file
Output statusPublished
Publication dates
Online10 Jul 2023
Publication process dates
Accepted12 Jun 2023
PublisherAmerican Society of Plant Biologists (ASPB)
ISSN0032-0889

Permalink - https://repository.rothamsted.ac.uk/item/98xv9/nt-acetylation-independent-turnover-of-squalene-epoxidase-1-by-arabidopsis-doa10-like-e3-ligases

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