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PUBMED FOR HANDHELDS

Journal Abstract Search


207 related items for PubMed ID: 24264737

  • 21. Natural variation for Fe-efficiency is associated with upregulation of Strategy I mechanisms and enhanced citrate and ethylene synthesis in Pisum sativum L.
    Kabir AH, Paltridge NG, Able AJ, Paull JG, Stangoulis JC.
    Planta; 2012 Jun; 235(6):1409-19. PubMed ID: 22212907
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  • 25. Molecular and phenotypic characterization of transgenic soybean expressing the Arabidopsis ferric chelate reductase gene, FRO2.
    Vasconcelos M, Eckert H, Arahana V, Graef G, Grusak MA, Clemente T.
    Planta; 2006 Oct; 224(5):1116-28. PubMed ID: 16741749
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  • 30. The photosynthetic and structural differences between leaves and siliques of Brassica napus exposed to potassium deficiency.
    Lu Z, Pan Y, Hu W, Cong R, Ren T, Guo S, Lu J.
    BMC Plant Biol; 2017 Dec 11; 17(1):240. PubMed ID: 29228924
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  • 31. S-deficiency responsive accumulation of amino acids is mainly due to hydrolysis of the previously synthesized proteins - not to de novo synthesis in Brassica napus.
    Lee BR, Muneer S, Kim KY, Avice JC, Ourry A, Kim TH.
    Physiol Plant; 2013 Mar 11; 147(3):369-80. PubMed ID: 22725131
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  • 32. Hydrogen sulfide alleviates lead-induced photosynthetic and ultrastructural changes in oilseed rape.
    Ali B, Song WJ, Hu WZ, Luo XN, Gill RA, Wang J, Zhou WJ.
    Ecotoxicol Environ Saf; 2014 Apr 11; 102():25-33. PubMed ID: 24580818
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  • 34. Leaves play a central role in the adaptation of nitrogen and sulfur metabolism to ammonium nutrition in oilseed rape (Brassica napus).
    Coleto I, de la Peña M, Rodríguez-Escalante J, Bejarano I, Glauser G, Aparicio-Tejo PM, González-Moro MB, Marino D.
    BMC Plant Biol; 2017 Sep 20; 17(1):157. PubMed ID: 28931380
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  • 35. 5-Aminolevulinic acid ameliorates cadmium-induced morphological, biochemical, and ultrastructural changes in seedlings of oilseed rape.
    Ali B, Huang CR, Qi ZY, Ali S, Daud MK, Geng XX, Liu HB, Zhou WJ.
    Environ Sci Pollut Res Int; 2013 Oct 20; 20(10):7256-67. PubMed ID: 23625120
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  • 36. Development and recovery of iron deficiency by iron resupply to roots or leaves of strawberry plants.
    Pestana M, Correia PJ, Saavedra T, Gama F, Abadía A, de Varennes A.
    Plant Physiol Biochem; 2012 Apr 20; 53():1-5. PubMed ID: 22285409
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  • 37. Effect of tris(3-hydroxy-4-pyridinonate) iron(III) complexes on iron uptake and storage in soybean (Glycine max L.).
    Santos CS, Carvalho SM, Leite A, Moniz T, Roriz M, Rangel AO, Rangel M, Vasconcelos MW.
    Plant Physiol Biochem; 2016 Sep 20; 106():91-100. PubMed ID: 27156133
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  • 38. During photosynthetic induction, biochemical and stomatal limitations differ between Brassica crops.
    Taylor SH, Orr DJ, Carmo-Silva E, Long SP.
    Plant Cell Environ; 2020 Nov 20; 43(11):2623-2636. PubMed ID: 32740963
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  • 39. 'Candidatus Phytoplasma solani' interferes with the distribution and uptake of iron in tomato.
    Buoso S, Pagliari L, Musetti R, Martini M, Marroni F, Schmidt W, Santi S.
    BMC Genomics; 2019 Sep 10; 20(1):703. PubMed ID: 31500568
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  • 40. AtNRAMP3, a multispecific vacuolar metal transporter involved in plant responses to iron deficiency.
    Thomine S, Lelièvre F, Debarbieux E, Schroeder JI, Barbier-Brygoo H.
    Plant J; 2003 Jun 10; 34(5):685-95. PubMed ID: 12787249
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