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Proteomic insight into the mitigation of wheat root drought stress by arbuscular mycorrhizae.
J Proteomics. 2017 10 03; 169:21-32.JP

Abstract

Arbuscular mycorrhizal fungi (AMF) are plant growth promoters that ameliorate plant-water relations and the nutrient uptake of wheat. In this work, two cultivars of Triticum spp., a bread and a durum wheat, grown under drought stress and inoculated or not by AMF, are evaluated through a shotgun proteomic approach. The AMF association had beneficial effects as compared to non-mycorrhizal roots, in both bread and durum wheat. The beneficial symbiosis was confirmed by measuring morphological and physiological traits. In our work, we identified 50 statistically differential proteins in the bread wheat cultivar and 66 differential proteins in the durum wheat cultivar. The findings highlighted a modulation of proteins related to sugar metabolism, cell wall rearrangement, cytoskeletal organization and sulphur-containing proteins, as well as proteins related to plant stress responses. Among differentially expressed proteins both cultivars evidenced a decrease in sucrose:fructan 6-fructosyltransferas. In durum wheat oxylipin signalling pathway was involved with two proteins: increased 12-oxo-phytodienoic acid reductase and decreased jasmonate-induced protein, both related to the biosynthesis of jasmonic acid. Interactome analysis highlighted the possible involvement of ubiquitin although not evidenced among differentially expressed proteins. The AMF association helps wheat roots reducing the osmotic stress and maintaining cellular integrity.

BIOLOGICAL SIGNIFICANCE

Drought is one of the major constraints that plants must face in some areas of the world, associated to climate change, negatively affecting the worldwide plant productivity. The adoption of innovative agronomic protocols may represent a winning strategy in facing this challenge. The arbuscular mycorrhizal fungi (AMF) inoculation may represent a natural and sustainable way to mitigate the negative effects due to drought in several crop, ameliorating plant growth and development. Studies on the proteomic responses specific to AMF in drought-stressed plants will help clarify how mycorrhization elicits plant growth, nutrient uptake, and stress-tolerance responses. Such studies also offer the potential to find biological markers and genetic targets to be used during breeding for new drought-resistant varieties.

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Authors+Show Affiliations

Bernardo L
Genomics Research Centre (CREA-GPG), Council for Agricultural Research and Economics, Via San Protaso 302, I-29017 Fiorenzuola d'Arda, PC, Italy. Electronic address: l_bernardo@libero.it.
Morcia C
Genomics Research Centre (CREA-GPG), Council for Agricultural Research and Economics, Via San Protaso 302, I-29017 Fiorenzuola d'Arda, PC, Italy.
Carletti P
Department of Agronomy, Food, Natural Resources, Animals and Environment, University of Padua, Viale dell'Università, 16, I-35020 Legnaro, PD, Italy.
Ghizzoni R
Genomics Research Centre (CREA-GPG), Council for Agricultural Research and Economics, Via San Protaso 302, I-29017 Fiorenzuola d'Arda, PC, Italy.
Badeck FW
Genomics Research Centre (CREA-GPG), Council for Agricultural Research and Economics, Via San Protaso 302, I-29017 Fiorenzuola d'Arda, PC, Italy.
Rizza F
Genomics Research Centre (CREA-GPG), Council for Agricultural Research and Economics, Via San Protaso 302, I-29017 Fiorenzuola d'Arda, PC, Italy.
Lucini L
Institute of Environmental and Agricultural Chemistry, Università Cattolica del Sacro Cuore, Via Emilia Parmense 84, I-29122 PC, Italy.
Terzi V
Genomics Research Centre (CREA-GPG), Council for Agricultural Research and Economics, Via San Protaso 302, I-29017 Fiorenzuola d'Arda, PC, Italy.

MeSH

Adaptation, BiologicalDroughtsMycorrhizaePlant RootsProteomicsStress, PhysiologicalSymbiosisTriticum

Pub Type(s)

Journal Article
Research Support, Non-U.S. Gov't

Language

eng

PubMed ID

28366879

Citation

Bernardo, Letizia, et al. "Proteomic Insight Into the Mitigation of Wheat Root Drought Stress By Arbuscular Mycorrhizae." Journal of Proteomics, vol. 169, 2017, pp. 21-32.
Bernardo L, Morcia C, Carletti P, et al. Proteomic insight into the mitigation of wheat root drought stress by arbuscular mycorrhizae. J Proteomics. 2017;169:21-32.
Bernardo, L., Morcia, C., Carletti, P., Ghizzoni, R., Badeck, F. W., Rizza, F., Lucini, L., & Terzi, V. (2017). Proteomic insight into the mitigation of wheat root drought stress by arbuscular mycorrhizae. Journal of Proteomics, 169, 21-32. https://doi.org/10.1016/j.jprot.2017.03.024
Bernardo L, et al. Proteomic Insight Into the Mitigation of Wheat Root Drought Stress By Arbuscular Mycorrhizae. J Proteomics. 2017 10 3;169:21-32. PubMed PMID: 28366879.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Proteomic insight into the mitigation of wheat root drought stress by arbuscular mycorrhizae. AU - Bernardo,Letizia, AU - Morcia,Caterina, AU - Carletti,Paolo, AU - Ghizzoni,Roberta, AU - Badeck,Franz W, AU - Rizza,Fulvia, AU - Lucini,Luigi, AU - Terzi,Valeria, Y1 - 2017/03/30/ PY - 2016/12/30/received PY - 2017/03/20/revised PY - 2017/03/28/accepted PY - 2017/4/4/pubmed PY - 2018/8/3/medline PY - 2017/4/4/entrez KW - Drought stress KW - Glomus mosseae KW - Shotgun proteomics KW - Sustainable agriculture KW - Triticum spp. SP - 21 EP - 32 JF - Journal of proteomics JO - J Proteomics VL - 169 N2 - : Arbuscular mycorrhizal fungi (AMF) are plant growth promoters that ameliorate plant-water relations and the nutrient uptake of wheat. In this work, two cultivars of Triticum spp., a bread and a durum wheat, grown under drought stress and inoculated or not by AMF, are evaluated through a shotgun proteomic approach. The AMF association had beneficial effects as compared to non-mycorrhizal roots, in both bread and durum wheat. The beneficial symbiosis was confirmed by measuring morphological and physiological traits. In our work, we identified 50 statistically differential proteins in the bread wheat cultivar and 66 differential proteins in the durum wheat cultivar. The findings highlighted a modulation of proteins related to sugar metabolism, cell wall rearrangement, cytoskeletal organization and sulphur-containing proteins, as well as proteins related to plant stress responses. Among differentially expressed proteins both cultivars evidenced a decrease in sucrose:fructan 6-fructosyltransferas. In durum wheat oxylipin signalling pathway was involved with two proteins: increased 12-oxo-phytodienoic acid reductase and decreased jasmonate-induced protein, both related to the biosynthesis of jasmonic acid. Interactome analysis highlighted the possible involvement of ubiquitin although not evidenced among differentially expressed proteins. The AMF association helps wheat roots reducing the osmotic stress and maintaining cellular integrity. BIOLOGICAL SIGNIFICANCE: Drought is one of the major constraints that plants must face in some areas of the world, associated to climate change, negatively affecting the worldwide plant productivity. The adoption of innovative agronomic protocols may represent a winning strategy in facing this challenge. The arbuscular mycorrhizal fungi (AMF) inoculation may represent a natural and sustainable way to mitigate the negative effects due to drought in several crop, ameliorating plant growth and development. Studies on the proteomic responses specific to AMF in drought-stressed plants will help clarify how mycorrhization elicits plant growth, nutrient uptake, and stress-tolerance responses. Such studies also offer the potential to find biological markers and genetic targets to be used during breeding for new drought-resistant varieties. SN - 1876-7737 UR - https://www.unboundmedicine.com/medline/citation/28366879/Proteomic_insight_into_the_mitigation_of_wheat_root_drought_stress_by_arbuscular_mycorrhizae_ L2 - https://linkinghub.elsevier.com/retrieve/pii/S1874-3919(17)30108-2 DB - PRIME DP - Unbound Medicine ER -