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Journal Abstract Search

412 related items for PubMed ID: 21783213

  • 1. A thiocyanate-forming protein generates multiple products upon allylglucosinolate breakdown in Thlaspi arvense.
    Kuchernig JC, Backenköhler A, Lübbecke M, Burow M, Wittstock U.
    Phytochemistry; 2011 Oct; 72(14-15):1699-709. PubMed ID: 21783213
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  • 4. Structural diversification during glucosinolate breakdown: mechanisms of thiocyanate, epithionitrile and simple nitrile formation.
    Eisenschmidt-Bönn D, Schneegans N, Backenköhler A, Wittstock U, Brandt W.
    Plant J; 2019 Jul; 99(2):329-343. PubMed ID: 30900313
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  • 6. Characterization of recombinant nitrile-specifier proteins (NSPs) of Arabidopsis thaliana: dependency on Fe(II) ions and the effect of glucosinolate substrate and reaction conditions.
    Kong XY, Kissen R, Bones AM.
    Phytochemistry; 2012 Dec; 84():7-17. PubMed ID: 22954730
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  • 11. Comparative biochemical characterization of nitrile-forming proteins from plants and insects that alter myrosinase-catalysed hydrolysis of glucosinolates.
    Burow M, Markert J, Gershenzon J, Wittstock U.
    FEBS J; 2006 Jun; 273(11):2432-46. PubMed ID: 16704417
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  • 12. The genetic basis of constitutive and herbivore-induced ESP-independent nitrile formation in Arabidopsis.
    Burow M, Losansky A, Müller R, Plock A, Kliebenstein DJ, Wittstock U.
    Plant Physiol; 2009 Jan; 149(1):561-74. PubMed ID: 18987211
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  • 17. Insect herbivore counteradaptations to the plant glucosinolate-myrosinase system.
    Winde I, Wittstock U.
    Phytochemistry; 2011 Sep; 72(13):1566-75. PubMed ID: 21316065
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  • 20. Genotype, age, tissue, and environment regulate the structural outcome of glucosinolate activation.
    Wentzell AM, Kliebenstein DJ.
    Plant Physiol; 2008 May; 147(1):415-28. PubMed ID: 18359845
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