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Journal Abstract Search

185 related items for PubMed ID: 25277966

  • 1. Culturable endophytic bacteria enhance Ni translocation in the hyperaccumulator Noccaea caerulescens.
    Visioli G, D'Egidio S, Vamerali T, Mattarozzi M, Sanangelantoni AM.
    Chemosphere; 2014 Dec; 117():538-44. PubMed ID: 25277966
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  • 2. Combined endophytic inoculants enhance nickel phytoextraction from serpentine soil in the hyperaccumulator Noccaea caerulescens.
    Visioli G, Vamerali T, Mattarozzi M, Dramis L, Sanangelantoni AM.
    Front Plant Sci; 2015 Dec; 6():638. PubMed ID: 26322074
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  • 3. Bacterial communities associated with flowering plants of the Ni hyperaccumulator Thlaspi goesingense.
    Idris R, Trifonova R, Puschenreiter M, Wenzel WW, Sessitsch A.
    Appl Environ Microbiol; 2004 May; 70(5):2667-77. PubMed ID: 15128517
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  • 4. The effect of endophytic fungi on growth and nickel accumulation in Noccaea hyperaccumulators.
    Ważny R, Rozpądek P, Domka A, Jędrzejczyk RJ, Nosek M, Hubalewska-Mazgaj M, Lichtscheidl I, Kidd P, Turnau K.
    Sci Total Environ; 2021 May 10; 768():144666. PubMed ID: 33736318
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  • 5. Plant-by-plant variations of bacterial communities associated with leaves of the nickel hyperaccumulator Alyssum bertolonii Desv.
    Mengoni A, Pini F, Huang LN, Shu WS, Bazzicalupo M.
    Microb Ecol; 2009 Oct 10; 58(3):660-7. PubMed ID: 19479304
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  • 6. Root-to-shoot long-distance circulation of nicotianamine and nicotianamine-nickel chelates in the metal hyperaccumulator Thlaspi caerulescens.
    Mari S, Gendre D, Pianelli K, Ouerdane L, Lobinski R, Briat JF, Lebrun M, Czernic P.
    J Exp Bot; 2006 Oct 10; 57(15):4111-22. PubMed ID: 17079698
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  • 9. Nickel solubilizing capacity and characterization of rhizobacteria isolated from hyperaccumulating and non-hyperaccumulating subspecies of Alyssum serpyllifolium.
    Becerra-Castro C, Prieto-Fernández A, Alvarez-Lopez V, Monterroso C, Cabello-Conejo MI, Acea MJ, Kidd PS.
    Int J Phytoremediation; 2011 Oct 10; 13 Suppl 1():229-44. PubMed ID: 22046762
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  • 11. Nickel and zinc isotope fractionation in hyperaccumulating and nonaccumulating plants.
    Deng TH, Cloquet C, Tang YT, Sterckeman T, Echevarria G, Estrade N, Morel JL, Qiu RL.
    Environ Sci Technol; 2014 Oct 21; 48(20):11926-33. PubMed ID: 25222693
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  • 13. Chelation by histidine inhibits the vacuolar sequestration of nickel in roots of the hyperaccumulator Thlaspi caerulescens.
    Richau KH, Kozhevnikova AD, Seregin IV, Vooijs R, Koevoets PLM, Smith JAC, Ivanov VB, Schat H.
    New Phytol; 2009 Oct 21; 183(1):106-116. PubMed ID: 19368671
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  • 14. Dark septate endophytes isolated from non-hyperaccumulator plants can increase phytoextraction of Cd and Zn by the hyperaccumulator Noccaea caerulescens.
    Yung L, Blaudez D, Maurice N, Azou-Barré A, Sirguey C.
    Environ Sci Pollut Res Int; 2021 Apr 21; 28(13):16544-16557. PubMed ID: 33387325
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  • 15. Phytoextraction potential of the nickel hyperaccumulators Leptoplax emarginata and Bornmuellera tymphaea.
    Chardot V, Massoura ST, Echevarria G, Reeves RD, Morel JL.
    Int J Phytoremediation; 2005 Apr 21; 7(4):323-35. PubMed ID: 16463544
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