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Journal Abstract Search

303 related items for PubMed ID: 25461606

  • 21. Preharvest application of MeJA enhancing the quality of postharvest grape berries via regulating terpenes biosynthesis and phenylpropanoid metabolisms.
    Zhang K, Zhang J, Zheng T, Gu W, Zhang Y, Li W, Zhou P, Fang Y, Chen K.
    Food Chem; 2024 Apr 16; 438():137958. PubMed ID: 38000159
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  • 22. Methyl jasmonate and ozone affect the antioxidant system and the quality of wine grape during postharvest partial dehydration.
    Modesti M, Petriccione M, Forniti R, Zampella L, Scortichini M, Mencarelli F.
    Food Res Int; 2018 Oct 16; 112():369-377. PubMed ID: 30131148
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  • 23. Nitric Oxide and Hydrogen Peroxide Are Involved in Methyl Jasmonate-Regulated Response against Botrytis cinerea in Postharvest Blueberries.
    Wang H, Kou X, Wu C, Fan G, Li T.
    J Agric Food Chem; 2020 Nov 25; 68(47):13632-13640. PubMed ID: 33185095
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  • 24. Stilbene biosynthesis and gene expression in response to methyl jasmonate and continuous light treatment in Vitis vinifera cv. Malvasia del Lazio and Vitis rupestris Du Lot cell cultures.
    Donati L, Ferretti L, Frallicciardi J, Rosciani R, Valletta A, Pasqua G.
    Physiol Plant; 2019 Jun 25; 166(2):646-662. PubMed ID: 30091254
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  • 25. Effect of MeJA treatment on polyamine, energy status and anthracnose rot of loquat fruit.
    Cao S, Cai Y, Yang Z, Joyce DC, Zheng Y.
    Food Chem; 2014 Feb 15; 145():86-9. PubMed ID: 24128452
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  • 26. Combined elicitation of methyl-jasmonate and red light on stilbene and anthocyanin biosynthesis.
    Tassoni A, Durante L, Ferri M.
    J Plant Physiol; 2012 May 15; 169(8):775-81. PubMed ID: 22424571
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  • 27. Alterations in Sucrose and Phenylpropanoid Metabolism Affected by BABA-Primed Defense in Postharvest Grapes and the Associated Transcriptional Mechanism.
    Li C, Wang K, Lei C, Cao S, Huang Y, Ji N, Xu F, Zheng Y.
    Mol Plant Microbe Interact; 2021 Nov 15; 34(11):1250-1266. PubMed ID: 34410840
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  • 32. Metabolomics reveals simultaneous influences of plant defence system and fungal growth in Botrytis cinerea-infected Vitis vinifera cv. Chardonnay berries.
    Hong YS, Martinez A, Liger-Belair G, Jeandet P, Nuzillard JM, Cilindre C.
    J Exp Bot; 2012 Oct 15; 63(16):5773-85. PubMed ID: 22945941
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  • 35. Induction of Direct or Priming Resistance against Botrytis cinerea in Strawberries by β-Aminobutyric Acid and Their Effects on Sucrose Metabolism.
    Wang K, Liao Y, Xiong Q, Kan J, Cao S, Zheng Y.
    J Agric Food Chem; 2016 Jul 27; 64(29):5855-65. PubMed ID: 27368357
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  • 37. The effect of methyl jasmonate and light irradiation treatments on the stilbenoid biosynthetic pathway in Vitis vinifera cell suspension cultures.
    Andi SA, Gholami M, Ford CM.
    Nat Prod Res; 2018 Apr 27; 32(8):909-917. PubMed ID: 28849673
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  • 38. Pseudomonas spp.-induced systemic resistance to Botrytis cinerea is associated with induction and priming of defence responses in grapevine.
    Verhagen BW, Trotel-Aziz P, Couderchet M, Höfte M, Aziz A.
    J Exp Bot; 2010 Apr 27; 61(1):249-60. PubMed ID: 19812243
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  • 39. Nitric oxide is involved in methyl jasmonate-induced defense responses and secondary metabolism activities of Taxus cells.
    Wang JW, Wu JY.
    Plant Cell Physiol; 2005 Jun 27; 46(6):923-30. PubMed ID: 15829512
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  • 40. DIGE analysis of proteome changes accompanying large resveratrol production by grapevine (Vitis vinifera cv. Gamay) cell cultures in response to methyl-β-cyclodextrin and methyl jasmonate elicitors.
    Martinez-Esteso MJ, Sellés-Marchart S, Vera-Urbina JC, Pedreño MA, Bru-Martinez R.
    J Proteomics; 2011 Aug 12; 74(8):1421-36. PubMed ID: 21426946
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