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229 related items for PubMed ID: 31848729

  • 1. Transcriptional, metabolic and DNA methylation changes underpinning the response of Arundo donax ecotypes to NaCl excess.
    Docimo T, De Stefano R, De Palma M, Cappetta E, Villano C, Aversano R, Tucci M.
    Planta; 2019 Dec 17; 251(1):34. PubMed ID: 31848729
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  • 2. Transcriptional response of giant reed (Arundo donax L.) low ecotype to long-term salt stress by unigene-based RNAseq.
    Sicilia A, Santoro DF, Testa G, Cosentino SL, Lo Piero AR.
    Phytochemistry; 2020 Sep 17; 177():112436. PubMed ID: 32563719
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  • 3. Selenate tolerance and selenium hyperaccumulation in the monocot giant reed (Arundo donax), a biomass crop plant with phytoremediation potential.
    Domokos-Szabolcsy É, Fári M, Márton L, Czakó M, Veres S, Elhawat N, Antal G, El-Ramady H, Zsíros O, Garab G, Alshaal T.
    Environ Sci Pollut Res Int; 2018 Nov 17; 25(31):31368-31380. PubMed ID: 30196460
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  • 4. Salt stress triggers augmented levels of Na+, K+ and ROS alters salt-related gene expression in leaves and roots of tall wheatgrass (Agropyron elongatum).
    Sheikh-Mohamadi MH, Etemadi N, Aalifar M, Pessarakli M.
    Plant Physiol Biochem; 2022 Jul 15; 183():9-22. PubMed ID: 35533640
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  • 5. Root Exposure to 5-Aminolevulinic Acid (ALA) Affects Leaf Element Accumulation, Isoprene Emission, Phytohormonal Balance, and Photosynthesis of Salt-Stressed Arundo donax.
    Brilli F, Pignattelli S, Baraldi R, Neri L, Pollastri S, Gonnelli C, Giovannelli A, Loreto F, Cocozza C.
    Int J Mol Sci; 2022 Apr 13; 23(8):. PubMed ID: 35457125
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  • 6. Tissue-specific and cation/anion-specific DNA methylation variations occurred in C. virgata in response to salinity stress.
    Gao X, Cao D, Liu J, Wang X, Geng S, Liu B, Shi D.
    PLoS One; 2013 Apr 13; 8(11):e78426. PubMed ID: 24223802
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  • 7. Phytoaccumulation potentials of two biotechnologically propagated ecotypes of Arundo donax in copper-contaminated synthetic wastewater.
    Elhawat N, Alshaal T, Domokos-Szabolcsy É, El-Ramady H, Márton L, Czakó M, Kátai J, Balogh P, Sztrik A, Molnár M, Popp J, Fári MG.
    Environ Sci Pollut Res Int; 2014 Jun 13; 21(12):7773-80. PubMed ID: 24638838
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  • 9. Physiological and proteomic characterization of salt tolerance in a mangrove plant, Bruguiera gymnorrhiza (L.) Lam.
    Zhu Z, Chen J, Zheng HL.
    Tree Physiol; 2012 Nov 13; 32(11):1378-88. PubMed ID: 23100256
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  • 10. Phenotypic differences determine drought stress responses in ecotypes of Arundo donax adapted to different environments.
    Ahrar M, Doneva D, Tattini M, Brunetti C, Gori A, Rodeghiero M, Wohlfahrt G, Biasioli F, Varotto C, Loreto F, Velikova V.
    J Exp Bot; 2017 Apr 01; 68(9):2439-2451. PubMed ID: 28449129
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  • 11. Functional Quality, Mineral Composition and Biomass Production in Hydroponic Spiny Chicory (Cichorium spinosum L.) Are Modulated Interactively by Ecotype, Salinity and Nitrogen Supply.
    Chatzigianni M, Ntatsi G, Theodorou M, Stamatakis A, Livieratos I, Rouphael Y, Savvas D.
    Front Plant Sci; 2019 Apr 01; 10():1040. PubMed ID: 31555310
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  • 17. Morpho-physiological mechanisms of two different quinoa ecotypes to resist salt stress.
    Hussin SA, Ali SH, Lotfy ME, El-Samad EHA, Eid MA, Abd-Elkader AM, Eisa SS.
    BMC Plant Biol; 2023 Jul 31; 23(1):374. PubMed ID: 37518180
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  • 18. Heterogeneous root zone salinity mitigates salt injury to Sorghum bicolor (L.) Moench in a split-root system.
    Zhang H, Wang R, Wang H, Liu B, Xu M, Guan Y, Yang Y, Qin L, Chen E, Li F, Huang R, Zhou Y.
    PLoS One; 2019 Jul 31; 14(12):e0227020. PubMed ID: 31887166
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  • 19. The excess of phosphorus in soil reduces physiological performances over time but enhances prompt recovery of salt-stressed Arundo donax plants.
    Cocozza C, Brilli F, Pignattelli S, Pollastri S, Brunetti C, Gonnelli C, Tognetti R, Centritto M, Loreto F.
    Plant Physiol Biochem; 2020 Jun 31; 151():556-565. PubMed ID: 32315911
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  • 20. Global leaf and root transcriptome in response to cadmium reveals tolerance mechanisms in Arundo donax L.
    Santoro DF, Sicilia A, Testa G, Cosentino SL, Lo Piero AR.
    BMC Genomics; 2022 Jun 08; 23(1):427. PubMed ID: 35672691
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