The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis

Peptides derived from non-functional precursors play important roles in various developmental processes, but also in (a)biotic stress signaling. Our (phospho)proteome-wide analyses of C-TERMINALLY ENCODED PEPTIDE 5 (CEP5)-mediated changes revealed an impact on abiotic stress-related processes. Droug...

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Autores principales: Smith, Stephanie, Zhu, Shanshuo, Joos, Lisa, Roberts, Ianto, Nikonorova, Natalia, Vu, Lam Dai, Stes, Elisabeth, Cho, Hyunwoo, Larrieu, Antoine, Xuan, Wei, Goodall, Benjamin, van de Cotte, Brigitte, Waite, Jessic Marie, Rigal, Adeline, Ramans Harborough, Sigurd, Persiau, Geert, Vanneste, Steffen, Kirschner, Gwendolyn K., Vandermarliere, Elien, Martens, Lennart, Stahl, Yvonne, Audenaert, Dominique, Friml, Jirí, Felix, Georg, Simon, Rüdiger, Bennett, Malcolm J., Bishopp, Anthony, De Jaeger, Geert, Ljung, Karin, Kepinski, Stefan, Robert, Stephanie, Nemhauser, Jennifer, Hwang, Ildoo, Gevaert, Kris, Beeckman, Tom, De Smet, Ive
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Biochemistry and Molecular Biology 2020
Materias:
Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8011570/
https://www.ncbi.nlm.nih.gov/pubmed/32404488
http://dx.doi.org/10.1074/mcp.RA119.001826
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author Smith, Stephanie
Zhu, Shanshuo
Joos, Lisa
Roberts, Ianto
Nikonorova, Natalia
Vu, Lam Dai
Stes, Elisabeth
Cho, Hyunwoo
Larrieu, Antoine
Xuan, Wei
Goodall, Benjamin
van de Cotte, Brigitte
Waite, Jessic Marie
Rigal, Adeline
Ramans Harborough, Sigurd
Persiau, Geert
Vanneste, Steffen
Kirschner, Gwendolyn K.
Vandermarliere, Elien
Martens, Lennart
Stahl, Yvonne
Audenaert, Dominique
Friml, Jirí
Felix, Georg
Simon, Rüdiger
Bennett, Malcolm J.
Bishopp, Anthony
De Jaeger, Geert
Ljung, Karin
Kepinski, Stefan
Robert, Stephanie
Nemhauser, Jennifer
Hwang, Ildoo
Gevaert, Kris
Beeckman, Tom
De Smet, Ive
author_facet Smith, Stephanie
Zhu, Shanshuo
Joos, Lisa
Roberts, Ianto
Nikonorova, Natalia
Vu, Lam Dai
Stes, Elisabeth
Cho, Hyunwoo
Larrieu, Antoine
Xuan, Wei
Goodall, Benjamin
van de Cotte, Brigitte
Waite, Jessic Marie
Rigal, Adeline
Ramans Harborough, Sigurd
Persiau, Geert
Vanneste, Steffen
Kirschner, Gwendolyn K.
Vandermarliere, Elien
Martens, Lennart
Stahl, Yvonne
Audenaert, Dominique
Friml, Jirí
Felix, Georg
Simon, Rüdiger
Bennett, Malcolm J.
Bishopp, Anthony
De Jaeger, Geert
Ljung, Karin
Kepinski, Stefan
Robert, Stephanie
Nemhauser, Jennifer
Hwang, Ildoo
Gevaert, Kris
Beeckman, Tom
De Smet, Ive
author_sort Smith, Stephanie
collection PubMed
description Peptides derived from non-functional precursors play important roles in various developmental processes, but also in (a)biotic stress signaling. Our (phospho)proteome-wide analyses of C-TERMINALLY ENCODED PEPTIDE 5 (CEP5)-mediated changes revealed an impact on abiotic stress-related processes. Drought has a dramatic impact on plant growth, development and reproduction, and the plant hormone auxin plays a role in drought responses. Our genetic, physiological, biochemical, and pharmacological results demonstrated that CEP5-mediated signaling is relevant for osmotic and drought stress tolerance in Arabidopsis, and that CEP5 specifically counteracts auxin effects. Specifically, we found that CEP5 signaling stabilizes AUX/IAA transcriptional repressors, suggesting the existence of a novel peptide-dependent control mechanism that tunes auxin signaling. These observations align with the recently described role of AUX/IAAs in stress tolerance and provide a novel role for CEP5 in osmotic and drought stress tolerance.
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spelling pubmed-80115702021-04-12 The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis Smith, Stephanie Zhu, Shanshuo Joos, Lisa Roberts, Ianto Nikonorova, Natalia Vu, Lam Dai Stes, Elisabeth Cho, Hyunwoo Larrieu, Antoine Xuan, Wei Goodall, Benjamin van de Cotte, Brigitte Waite, Jessic Marie Rigal, Adeline Ramans Harborough, Sigurd Persiau, Geert Vanneste, Steffen Kirschner, Gwendolyn K. Vandermarliere, Elien Martens, Lennart Stahl, Yvonne Audenaert, Dominique Friml, Jirí Felix, Georg Simon, Rüdiger Bennett, Malcolm J. Bishopp, Anthony De Jaeger, Geert Ljung, Karin Kepinski, Stefan Robert, Stephanie Nemhauser, Jennifer Hwang, Ildoo Gevaert, Kris Beeckman, Tom De Smet, Ive Mol Cell Proteomics Research Peptides derived from non-functional precursors play important roles in various developmental processes, but also in (a)biotic stress signaling. Our (phospho)proteome-wide analyses of C-TERMINALLY ENCODED PEPTIDE 5 (CEP5)-mediated changes revealed an impact on abiotic stress-related processes. Drought has a dramatic impact on plant growth, development and reproduction, and the plant hormone auxin plays a role in drought responses. Our genetic, physiological, biochemical, and pharmacological results demonstrated that CEP5-mediated signaling is relevant for osmotic and drought stress tolerance in Arabidopsis, and that CEP5 specifically counteracts auxin effects. Specifically, we found that CEP5 signaling stabilizes AUX/IAA transcriptional repressors, suggesting the existence of a novel peptide-dependent control mechanism that tunes auxin signaling. These observations align with the recently described role of AUX/IAAs in stress tolerance and provide a novel role for CEP5 in osmotic and drought stress tolerance. American Society for Biochemistry and Molecular Biology 2020-11-23 /pmc/articles/PMC8011570/ /pubmed/32404488 http://dx.doi.org/10.1074/mcp.RA119.001826 Text en © 2020 © 2020 Smith et al. http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Research
Smith, Stephanie
Zhu, Shanshuo
Joos, Lisa
Roberts, Ianto
Nikonorova, Natalia
Vu, Lam Dai
Stes, Elisabeth
Cho, Hyunwoo
Larrieu, Antoine
Xuan, Wei
Goodall, Benjamin
van de Cotte, Brigitte
Waite, Jessic Marie
Rigal, Adeline
Ramans Harborough, Sigurd
Persiau, Geert
Vanneste, Steffen
Kirschner, Gwendolyn K.
Vandermarliere, Elien
Martens, Lennart
Stahl, Yvonne
Audenaert, Dominique
Friml, Jirí
Felix, Georg
Simon, Rüdiger
Bennett, Malcolm J.
Bishopp, Anthony
De Jaeger, Geert
Ljung, Karin
Kepinski, Stefan
Robert, Stephanie
Nemhauser, Jennifer
Hwang, Ildoo
Gevaert, Kris
Beeckman, Tom
De Smet, Ive
The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis
title The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis
title_full The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis
title_fullStr The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis
title_full_unstemmed The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis
title_short The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis
title_sort cep5 peptide promotes abiotic stress tolerance, as revealed by quantitative proteomics, and attenuates the aux/iaa equilibrium in arabidopsis
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8011570/
https://www.ncbi.nlm.nih.gov/pubmed/32404488
http://dx.doi.org/10.1074/mcp.RA119.001826
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