Take a Trip Through the Plant and Fungal Transportome of Mycorrhiza

Soil nutrient acquisition and exchanges through symbiotic plant–fungus interactions in the rhizosphere are key features for the current agricultural and environmental challenges. Improved crop yield and plant mineral nutrition through a fungal symbiont has been widely described. In return, the host...

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Published inTrends in plant science Vol. 21; no. 11; pp. 937 - 950
Main Authors Garcia, Kevin, Doidy, Joan, Zimmermann, Sabine D., Wipf, Daniel, Courty, Pierre-Emmanuel
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.11.2016
Elsevier
Subjects
Biological Transport - genetics
Biological Transport - physiology
carbon
crop yield
engineering
fungi
host plants
Life Sciences
Membrane Transport Proteins - genetics
Membrane Transport Proteins - metabolism
mycorrhizae
Mycorrhizae - metabolism
Mycorrhizae - physiology
nitrogen
nutrition
phosphates
physiological transport
Plants - metabolism
Plants - microbiology
potassium
rhizosphere
soil
soil nutrients
sugars
sulfates
symbionts
Symbiosis - genetics
Symbiosis - physiology
transport proteins
Vegetal Biology
new agro-ecological systems
symbiotic plant–fungus
Improved crop yield
plant mineral nutrition
membrane transport
mycorrhizal transportome
mycorrhizal plants and fungi
Online AccessGet full text
ISSN1360-1385
1878-4372
DOI10.1016/j.tplants.2016.07.010

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Abstract Soil nutrient acquisition and exchanges through symbiotic plant–fungus interactions in the rhizosphere are key features for the current agricultural and environmental challenges. Improved crop yield and plant mineral nutrition through a fungal symbiont has been widely described. In return, the host plant supplies carbon substrates to its fungal partner. We review here recent progress on molecular players of membrane transport involved in nutritional exchanges between mycorrhizal plants and fungi. We cover the transportome, from the transport proteins involved in sugar fluxes from plants towards fungi, to the uptake from the soil and exchange of nitrogen, phosphate, potassium, sulfate, and water. Together, these advances in the comprehension of the mycorrhizal transportome will help in developing the future engineering of new agro-ecological systems. Plant growth and development are highly dependent on rhizosphere nutrient availability which is often a limiting factor. This constraint has forced land plants to evolve various strategies, including beneficial interactions with soil microorganisms. The symbiotic interactions between plant roots and fungi, termed mycorrhizal symbiosis, provide reciprocal benefits for both partners, as for instance for the plant partner the acquisition of nitrogen (N), phosphate (P), potassium (K), and sulfate (S), the primary macronutrients used in plant fertilizer. Plant and fungal transport systems display ‘mycorrhiza-specific’ and ‘fine-tuning’ regulation to control nutrient fluxes towards the symbiotic interface, delimiting the site of reciprocal nutrient exchanges between the partners. The selection and engineering of mycorrhizal partners based on the plant and fungal transportome, targeting the key transporters resulting from the massive generation and analysis of ‘omics’ data, will ensure agro-ecological improvement of crop nutrition.
AbstractList Soil nutrient acquisition and exchanges through symbiotic plant-fungus interactions in the rhizosphere are key features for the current agricultural and environmental challenges. Improved crop yield and plant mineral nutrition through a fungal symbiont has been widely described. In return, the host plant supplies carbon substrates to its fungal partner. We review here recent progress on molecular players of membrane transport involved in nutritional exchanges between mycorrhizal plants and fungi. We cover the transportome, from the transport proteins involved in sugar fluxes from plants towards fungi, to the uptake from the soil and exchange of nitrogen, phosphate, potassium, sulfate, and water. Together, these advances in the comprehension of the mycorrhizal transportome will help in developing the future engineering of new agro-ecological systems.
Soil nutrient acquisition and exchanges through symbiotic plant–fungus interactions in the rhizosphere are key features for the current agricultural and environmental challenges. Improved crop yield and plant mineral nutrition through a fungal symbiont has been widely described. In return, the host plant supplies carbon substrates to its fungal partner. We review here recent progress on molecular players of membrane transport involved in nutritional exchanges between mycorrhizal plants and fungi. We cover the transportome, from the transport proteins involved in sugar fluxes from plants towards fungi, to the uptake from the soil and exchange of nitrogen, phosphate, potassium, sulfate, and water. Together, these advances in the comprehension of the mycorrhizal transportome will help in developing the future engineering of new agro-ecological systems. Plant growth and development are highly dependent on rhizosphere nutrient availability which is often a limiting factor. This constraint has forced land plants to evolve various strategies, including beneficial interactions with soil microorganisms. The symbiotic interactions between plant roots and fungi, termed mycorrhizal symbiosis, provide reciprocal benefits for both partners, as for instance for the plant partner the acquisition of nitrogen (N), phosphate (P), potassium (K), and sulfate (S), the primary macronutrients used in plant fertilizer. Plant and fungal transport systems display ‘mycorrhiza-specific’ and ‘fine-tuning’ regulation to control nutrient fluxes towards the symbiotic interface, delimiting the site of reciprocal nutrient exchanges between the partners. The selection and engineering of mycorrhizal partners based on the plant and fungal transportome, targeting the key transporters resulting from the massive generation and analysis of ‘omics’ data, will ensure agro-ecological improvement of crop nutrition.
Soil nutrient acquisition and exchanges through symbiotic plant–fungus interactions in the rhizosphere are key features for the current agricultural and environmental challenges. Improved crop yield and plant mineral nutrition through a fungal symbiont has been widely described. In return, the host plant supplies carbon substrates to its fungal partner. We review here recent progress on molecular players of membrane transport involved in nutritional exchanges between mycorrhizal plants and fungi. We cover the transportome, from the transport proteins involved in sugar fluxes from plants towards fungi, to the uptake from the soil and exchange of nitrogen, phosphate, potassium, sulfate, and water. Together, these advances in the comprehension of the mycorrhizal transportome will help in developing the future engineering of new agro-ecological systems
Author Zimmermann, Sabine D.
Wipf, Daniel
Courty, Pierre-Emmanuel
Garcia, Kevin
Doidy, Joan
Author_xml – sequence: 1
  givenname: Kevin
  surname: Garcia
  fullname: Garcia, Kevin
  organization: Department of Bacteriology, University of Wisconsin-Madison, Madison, WI 53706, USA
– sequence: 2
  givenname: Joan
  surname: Doidy
  fullname: Doidy, Joan
  organization: Center for Genomics and Systems Biology, Department of Biology, New York University, New York, NY 10003, USA
– sequence: 3
  givenname: Sabine D.
  surname: Zimmermann
  fullname: Zimmermann, Sabine D.
  organization: Biochimie et Physiologie Moléculaire des Plantes, Centre National de la Recherche Scientifique (CNRS), Institut National de la Recherche Agronomique (INRA), Montpellier SupAgro, Université de Montpellier, 34060 Montpellier, France
– sequence: 4
  givenname: Daniel
  surname: Wipf
  fullname: Wipf, Daniel
  organization: Agroécologie, AgroSup Dijon, CNRS, INRA, Université de Bourgogne Franche-Comté, 21000 Dijon, France
– sequence: 5
  givenname: Pierre-Emmanuel
  surname: Courty
  fullname: Courty, Pierre-Emmanuel
  email: pierre-emmanuel.courty@unifr.ch
  organization: University of Fribourg, Department of Biology, 3 rue Albert Gockel, 1700 Fribourg, Switzerland
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Sun Sep 28 10:58:26 EDT 2025
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Thu Apr 24 22:53:59 EDT 2025
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Issue 11
Keywords new agro-ecological systems
symbiotic plant–fungus
Improved crop yield
plant mineral nutrition
membrane transport
mycorrhizal transportome
mycorrhizal plants and fungi
Language English
License Copyright © 2016 Elsevier Ltd. All rights reserved.
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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Garcia (10.1016/j.tplants.2016.07.010_bib1195) 2013; 58-59
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Rausch (10.1016/j.tplants.2016.07.010_bib1100) 2001; 414
Gutjahr (10.1016/j.tplants.2016.07.010_bib0710) 2011; 234
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Snippet Soil nutrient acquisition and exchanges through symbiotic plant–fungus interactions in the rhizosphere are key features for the current agricultural and...
Soil nutrient acquisition and exchanges through symbiotic plant-fungus interactions in the rhizosphere are key features for the current agricultural and...
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SubjectTerms Biological Transport - genetics
Biological Transport - physiology
carbon
crop yield
engineering
fungi
host plants
Life Sciences
Membrane Transport Proteins - genetics
Membrane Transport Proteins - metabolism
mycorrhizae
Mycorrhizae - metabolism
Mycorrhizae - physiology
nitrogen
nutrition
phosphates
physiological transport
Plants - metabolism
Plants - microbiology
potassium
rhizosphere
soil
soil nutrients
sugars
sulfates
symbionts
Symbiosis - genetics
Symbiosis - physiology
transport proteins
Vegetal Biology
Title Take a Trip Through the Plant and Fungal Transportome of Mycorrhiza
URI https://dx.doi.org/10.1016/j.tplants.2016.07.010
https://www.ncbi.nlm.nih.gov/pubmed/27514454
https://www.proquest.com/docview/1835691679
https://www.proquest.com/docview/2000158689
https://hal.science/hal-01354681
Volume 21
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