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Journal Abstract Search

190 related items for PubMed ID: 19609964

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  • 2. The expression patterns of SAG12/Cab genes reveal the spatial and temporal progression of leaf senescence in Brassica napus L. with sensitivity to the environment.
    Gombert J, Etienne P, Ourry A, Le Dily F.
    J Exp Bot; 2006; 57(9):1949-56. PubMed ID: 16720615
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  • 6. Proteomic analysis of residual proteins in blades and petioles of fallen leaves of Brassica napus.
    Desclos-Théveniau M, Coquet L, Jouenne T, Etienne P.
    Plant Biol (Stuttg); 2015 Mar; 17(2):408-18. PubMed ID: 25294336
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  • 7. Supply of nitrogen can reverse senescence processes and affect expression of genes coding for plastidic glutamine synthetase and lysine-ketoglutarate reductase/saccharopine dehydrogenase.
    Schildhauer J, Wiedemuth K, Humbeck K.
    Plant Biol (Stuttg); 2008 Sep; 10 Suppl 1():76-84. PubMed ID: 18721313
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  • 8. Nitrogen storage and remobilization in Brassica napus L. during the growth cycle: effects of methyl jasmonate on nitrate uptake, senescence, growth, and VSP accumulation.
    Rossato L, MacDuff JH, Laine P, Le Deunff E, Ourry A.
    J Exp Bot; 2002 May; 53(371):1131-41. PubMed ID: 11971924
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  • 9. Differences between winter oilseed rape (Brassica napus L.) cultivars in nitrogen starvation-induced leaf senescence are governed by leaf-inherent rather than root-derived signals.
    Koeslin-Findeklee F, Becker MA, van der Graaff E, Roitsch T, Horst WJ.
    J Exp Bot; 2015 Jul; 66(13):3669-81. PubMed ID: 25944925
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  • 11. Transcriptomic analysis of nitrogen starvation- and cultivar-specific leaf senescence in winter oilseed rape (Brassica napus L.).
    Koeslin-Findeklee F, Rizi VS, Becker MA, Parra-Londono S, Arif M, Balazadeh S, Mueller-Roeber B, Kunze R, Horst WJ.
    Plant Sci; 2015 Apr; 233():174-185. PubMed ID: 25711825
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  • 12. Identification and characterization of novel senescence-associated genes from barley (Hordeum vulgare) primary leaves.
    Ay N, Clauss K, Barth O, Humbeck K.
    Plant Biol (Stuttg); 2008 Sep; 10 Suppl 1():121-35. PubMed ID: 18721317
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  • 13. Chlorophyll a fluorescence imaging of ozone-stressed Brassica napus L. plants differing in glucosinolate concentrations.
    Gielen B, Vandermeiren K, Horemans N, D'Haese D, Serneels R, Valcke R.
    Plant Biol (Stuttg); 2006 Sep; 8(5):698-705. PubMed ID: 16821192
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  • 14. The proteomics of senescence in leaves of white clover, Trifolium repens (L.).
    Wilson KA, McManus MT, Gordon ME, Jordan TW.
    Proteomics; 2002 Sep; 2(9):1114-22. PubMed ID: 12362330
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  • 15. Leaf developmental stage affects sulfate depletion and specific sulfate transporter expression during sulfur deprivation in Brassica napus L.
    Parmar S, Buchner P, Hawkesford MJ.
    Plant Biol (Stuttg); 2007 Sep; 9(5):647-53. PubMed ID: 17853364
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  • 16. iTRAQ-based quantitative proteomics analysis of Brassica napus leaves reveals pathways associated with chlorophyll deficiency.
    Chu P, Yan GX, Yang Q, Zhai LN, Zhang C, Zhang FQ, Guan RZ.
    J Proteomics; 2015 Jan 15; 113():244-59. PubMed ID: 25317966
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  • 17. 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 15; 147(3):369-80. PubMed ID: 22725131
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  • 18. Comparative proteomics of leaf, stem, and root tissues of synthetic Brassica napus.
    Albertin W, Langella O, Joets J, Négroni L, Zivy M, Damerval C, Thiellement H.
    Proteomics; 2009 Feb 15; 9(3):793-9. PubMed ID: 19132686
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  • 19. Leaf senescence and nutrient remobilisation in barley and wheat.
    Gregersen PL, Holm PB, Krupinska K.
    Plant Biol (Stuttg); 2008 Sep 15; 10 Suppl 1():37-49. PubMed ID: 18721310
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