The AtCRK5 Protein Kinase Is Required to Maintain the ROS NO Balance Affecting the PIN2-Mediated Root Gravitropic Response in Arabidopsis

The Arabidopsis AtCRK5 protein kinase is involved in the establishment of the proper auxin gradient in many developmental processes. Among others, the Atcrk5-1 mutant was reported to exhibit a delayed gravitropic response via compromised PIN2-mediated auxin transport at the root tip. Here, we report...

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Autores principales: Cséplő, Ágnes, Zsigmond, Laura, Andrási, Norbert, Baba, Abu Imran, Labhane, Nitin M., Pető, Andrea, Kolbert, Zsuzsanna, Kovács, Hajnalka E., Steinbach, Gábor, Szabados, László, Fehér, Attila, Rigó, Gábor
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8197844/
https://www.ncbi.nlm.nih.gov/pubmed/34205973
http://dx.doi.org/10.3390/ijms22115979
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author Cséplő, Ágnes
Zsigmond, Laura
Andrási, Norbert
Baba, Abu Imran
Labhane, Nitin M.
Pető, Andrea
Kolbert, Zsuzsanna
Kovács, Hajnalka E.
Steinbach, Gábor
Szabados, László
Fehér, Attila
Rigó, Gábor
author_facet Cséplő, Ágnes
Zsigmond, Laura
Andrási, Norbert
Baba, Abu Imran
Labhane, Nitin M.
Pető, Andrea
Kolbert, Zsuzsanna
Kovács, Hajnalka E.
Steinbach, Gábor
Szabados, László
Fehér, Attila
Rigó, Gábor
author_sort Cséplő, Ágnes
collection PubMed
description The Arabidopsis AtCRK5 protein kinase is involved in the establishment of the proper auxin gradient in many developmental processes. Among others, the Atcrk5-1 mutant was reported to exhibit a delayed gravitropic response via compromised PIN2-mediated auxin transport at the root tip. Here, we report that this phenotype correlates with lower superoxide anion (O(2)(•−)) and hydrogen peroxide (H(2)O(2)) levels but a higher nitric oxide (NO) content in the mutant root tips in comparison to the wild type (AtCol-0). The oxidative stress inducer paraquat (PQ) triggering formation of O(2)(•−) (and consequently, H(2)O(2)) was able to rescue the gravitropic response of Atcrk5-1 roots. The direct application of H(2)O(2) had the same effect. Under gravistimulation, correct auxin distribution was restored (at least partially) by PQ or H(2)O(2) treatment in the mutant root tips. In agreement, the redistribution of the PIN2 auxin efflux carrier was similar in the gravistimulated PQ-treated mutant and untreated wild type roots. It was also found that PQ-treatment decreased the endogenous NO level at the root tip to normal levels. Furthermore, the mutant phenotype could be reverted by direct manipulation of the endogenous NO level using an NO scavenger (cPTIO). The potential involvement of AtCRK5 protein kinase in the control of auxin-ROS-NO-PIN2-auxin regulatory loop is discussed.
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spelling pubmed-81978442021-06-14 The AtCRK5 Protein Kinase Is Required to Maintain the ROS NO Balance Affecting the PIN2-Mediated Root Gravitropic Response in Arabidopsis Cséplő, Ágnes Zsigmond, Laura Andrási, Norbert Baba, Abu Imran Labhane, Nitin M. Pető, Andrea Kolbert, Zsuzsanna Kovács, Hajnalka E. Steinbach, Gábor Szabados, László Fehér, Attila Rigó, Gábor Int J Mol Sci Article The Arabidopsis AtCRK5 protein kinase is involved in the establishment of the proper auxin gradient in many developmental processes. Among others, the Atcrk5-1 mutant was reported to exhibit a delayed gravitropic response via compromised PIN2-mediated auxin transport at the root tip. Here, we report that this phenotype correlates with lower superoxide anion (O(2)(•−)) and hydrogen peroxide (H(2)O(2)) levels but a higher nitric oxide (NO) content in the mutant root tips in comparison to the wild type (AtCol-0). The oxidative stress inducer paraquat (PQ) triggering formation of O(2)(•−) (and consequently, H(2)O(2)) was able to rescue the gravitropic response of Atcrk5-1 roots. The direct application of H(2)O(2) had the same effect. Under gravistimulation, correct auxin distribution was restored (at least partially) by PQ or H(2)O(2) treatment in the mutant root tips. In agreement, the redistribution of the PIN2 auxin efflux carrier was similar in the gravistimulated PQ-treated mutant and untreated wild type roots. It was also found that PQ-treatment decreased the endogenous NO level at the root tip to normal levels. Furthermore, the mutant phenotype could be reverted by direct manipulation of the endogenous NO level using an NO scavenger (cPTIO). The potential involvement of AtCRK5 protein kinase in the control of auxin-ROS-NO-PIN2-auxin regulatory loop is discussed. MDPI 2021-06-01 /pmc/articles/PMC8197844/ /pubmed/34205973 http://dx.doi.org/10.3390/ijms22115979 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Cséplő, Ágnes
Zsigmond, Laura
Andrási, Norbert
Baba, Abu Imran
Labhane, Nitin M.
Pető, Andrea
Kolbert, Zsuzsanna
Kovács, Hajnalka E.
Steinbach, Gábor
Szabados, László
Fehér, Attila
Rigó, Gábor
The AtCRK5 Protein Kinase Is Required to Maintain the ROS NO Balance Affecting the PIN2-Mediated Root Gravitropic Response in Arabidopsis
title The AtCRK5 Protein Kinase Is Required to Maintain the ROS NO Balance Affecting the PIN2-Mediated Root Gravitropic Response in Arabidopsis
title_full The AtCRK5 Protein Kinase Is Required to Maintain the ROS NO Balance Affecting the PIN2-Mediated Root Gravitropic Response in Arabidopsis
title_fullStr The AtCRK5 Protein Kinase Is Required to Maintain the ROS NO Balance Affecting the PIN2-Mediated Root Gravitropic Response in Arabidopsis
title_full_unstemmed The AtCRK5 Protein Kinase Is Required to Maintain the ROS NO Balance Affecting the PIN2-Mediated Root Gravitropic Response in Arabidopsis
title_short The AtCRK5 Protein Kinase Is Required to Maintain the ROS NO Balance Affecting the PIN2-Mediated Root Gravitropic Response in Arabidopsis
title_sort atcrk5 protein kinase is required to maintain the ros no balance affecting the pin2-mediated root gravitropic response in arabidopsis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8197844/
https://www.ncbi.nlm.nih.gov/pubmed/34205973
http://dx.doi.org/10.3390/ijms22115979
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