MtMTP2-Facilitated Zinc Transport Into Intracellular Compartments Is Essential for Nodule Development in Medicago truncatula

Zinc (Zn) is an essential nutrient for plants that is involved in almost every biological process. This includes symbiotic nitrogen fixation, a process carried out by endosymbiotic bacteria (rhizobia) living within differentiated plant cells of legume root nodules. Zn transport in nodules involves d...

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Autores principales: León-Mediavilla, Javier, Senovilla, Marta, Montiel, Jesús, Gil-Díez, Patricia, Saez, Ángela, Kryvoruchko, Igor S., Reguera, María, Udvardi, Michael K., Imperial, Juan, González-Guerrero, Manuel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2018
Materias:
Plant Science
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6048390/
https://www.ncbi.nlm.nih.gov/pubmed/30042781
http://dx.doi.org/10.3389/fpls.2018.00990
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author León-Mediavilla, Javier
Senovilla, Marta
Montiel, Jesús
Gil-Díez, Patricia
Saez, Ángela
Kryvoruchko, Igor S.
Reguera, María
Udvardi, Michael K.
Imperial, Juan
González-Guerrero, Manuel
author_facet León-Mediavilla, Javier
Senovilla, Marta
Montiel, Jesús
Gil-Díez, Patricia
Saez, Ángela
Kryvoruchko, Igor S.
Reguera, María
Udvardi, Michael K.
Imperial, Juan
González-Guerrero, Manuel
author_sort León-Mediavilla, Javier
collection PubMed
description Zinc (Zn) is an essential nutrient for plants that is involved in almost every biological process. This includes symbiotic nitrogen fixation, a process carried out by endosymbiotic bacteria (rhizobia) living within differentiated plant cells of legume root nodules. Zn transport in nodules involves delivery from the root, via the vasculature, release into the apoplast and uptake into nodule cells. Once in the cytosol, Zn can be used directly by cytosolic proteins or delivered into organelles, including symbiosomes of infected cells, by Zn efflux transporters. Medicago truncatula MtMTP2 (Medtr4g064893) is a nodule-induced Zn-efflux protein that was localized to an intracellular compartment in root epidermal and endodermal cells, as well as in nodule cells. Although the MtMTP2 gene is expressed in roots, shoots, and nodules, mtp2 mutants exhibited growth defects only under symbiotic, nitrogen-fixing conditions. Loss of MtMTP2 function resulted in altered nodule development, defects in bacteroid differentiation, and severe reduction of nitrogenase activity. The results presented here support a role of MtMTP2 in intracellular compartmentation of Zn, which is required for effective symbiotic nitrogen fixation in M. truncatula.
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spelling pubmed-60483902018-07-24 MtMTP2-Facilitated Zinc Transport Into Intracellular Compartments Is Essential for Nodule Development in Medicago truncatula León-Mediavilla, Javier Senovilla, Marta Montiel, Jesús Gil-Díez, Patricia Saez, Ángela Kryvoruchko, Igor S. Reguera, María Udvardi, Michael K. Imperial, Juan González-Guerrero, Manuel Front Plant Sci Plant Science Zinc (Zn) is an essential nutrient for plants that is involved in almost every biological process. This includes symbiotic nitrogen fixation, a process carried out by endosymbiotic bacteria (rhizobia) living within differentiated plant cells of legume root nodules. Zn transport in nodules involves delivery from the root, via the vasculature, release into the apoplast and uptake into nodule cells. Once in the cytosol, Zn can be used directly by cytosolic proteins or delivered into organelles, including symbiosomes of infected cells, by Zn efflux transporters. Medicago truncatula MtMTP2 (Medtr4g064893) is a nodule-induced Zn-efflux protein that was localized to an intracellular compartment in root epidermal and endodermal cells, as well as in nodule cells. Although the MtMTP2 gene is expressed in roots, shoots, and nodules, mtp2 mutants exhibited growth defects only under symbiotic, nitrogen-fixing conditions. Loss of MtMTP2 function resulted in altered nodule development, defects in bacteroid differentiation, and severe reduction of nitrogenase activity. The results presented here support a role of MtMTP2 in intracellular compartmentation of Zn, which is required for effective symbiotic nitrogen fixation in M. truncatula. Frontiers Media S.A. 2018-07-10 /pmc/articles/PMC6048390/ /pubmed/30042781 http://dx.doi.org/10.3389/fpls.2018.00990 Text en Copyright © 2018 León-Mediavilla, Senovilla, Montiel, Gil-Díez, Saez, Kryvoruchko, Reguera, Udvardi, Imperial and González-Guerrero. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Plant Science
León-Mediavilla, Javier
Senovilla, Marta
Montiel, Jesús
Gil-Díez, Patricia
Saez, Ángela
Kryvoruchko, Igor S.
Reguera, María
Udvardi, Michael K.
Imperial, Juan
González-Guerrero, Manuel
MtMTP2-Facilitated Zinc Transport Into Intracellular Compartments Is Essential for Nodule Development in Medicago truncatula
title MtMTP2-Facilitated Zinc Transport Into Intracellular Compartments Is Essential for Nodule Development in Medicago truncatula
title_full MtMTP2-Facilitated Zinc Transport Into Intracellular Compartments Is Essential for Nodule Development in Medicago truncatula
title_fullStr MtMTP2-Facilitated Zinc Transport Into Intracellular Compartments Is Essential for Nodule Development in Medicago truncatula
title_full_unstemmed MtMTP2-Facilitated Zinc Transport Into Intracellular Compartments Is Essential for Nodule Development in Medicago truncatula
title_short MtMTP2-Facilitated Zinc Transport Into Intracellular Compartments Is Essential for Nodule Development in Medicago truncatula
title_sort mtmtp2-facilitated zinc transport into intracellular compartments is essential for nodule development in medicago truncatula
topic Plant Science
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6048390/
https://www.ncbi.nlm.nih.gov/pubmed/30042781
http://dx.doi.org/10.3389/fpls.2018.00990
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