Поисковый запрос: (<.>S=ЖАСМОНАТ<.>) |
Общее количество найденных документов : 52
Показаны документы с 1 по 20
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| Егорова А.М. Протеомный ответ корней гороха на действие салициловой кислоты и метилжасмоната // 5 Российский симпозиум "Белки и пептиды", Петрозаводск, 8-12 авг., 2011. -Петрозаводск, 2011.-С.276
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| Егорова А.М. Механизм подавления сaлициловой кислотой синтеза жасмоната у растений // Международная конференция "Рецепция и внутриклеточная сигнализация", Пущино, 5-7 июня, 2007. -Пущино (Моск. обл.), 2007.-С.255-258
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| Влияние Ca{2+} на метилжасмонат-индуцированное тирозиновое фосфорилирование белков корней гороха // 10 Международная конференция молодых ученых "Пищевые технологии и биотехнологии", Казань, 12-15 мая, 2009. -Казань, 2009.-С.309
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| {11}C-imaging: Methyl jasmonate moves in both phloem and xylem, promotes transport of jasmonate, and of photoassimilate even after proton transport is decoupled // Planta, 2007. Vol. 226, N 2.-С.541-551
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| Wplyw estru metylowego kwasu jasmonowego na formowanie polirybosomow i kielkowanie ziarna pszenzyta ozimego odmiany Ugo // Folia Univ. agr. Stetin. Agr., 2000, N 82.-С.321-324
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| Wplyw estru metylowego kwasu jasmonowego na formowanie polirybosomow i kielkowanie ziarna pszenzyta ozimego odmiany Ugo // Folia Univ. agr. Stetin. Agr., 2000, N 82.-С.321-324
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| Use of methyl jasmonate for suppression of botrytis rot in various cultivars of cut rose flowers // Phytoparasitica, 2004. Vol. 32, N 2.-С.206-207
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| Use of isotope mass probes for metabolic analysis of the jasmonate biosynthetic pathway // Analyst, 2011. Vol. 136, N 7.-С.1515-1522
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| Two novel RING-type ubiquitin ligases, RGLG3 and RGLG4, are essential for jasmonate-mediated responses in Arabidopsis // Plant Physiol., 2012. Vol. 160, N 2.-С.808-822
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| Transcriptional regulators of stamen development in Arabidopsis identified by transcriptional profiling // Plant J., 2006. Vol. 46, N 6.-С.984-1008
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11.
| The COP9 signalosome interacts physically with SCF{COI1} and modulates jasmonate responses // Plant Cell, 2003. Vol. 15, N 5.-С.1083-1094
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| The arabidopsis mutant cev1 links cell wall signaling to jasmonate and ethylene responses // Plant Cell, 2002. Vol. 14, N 7.-С.1557-1566
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| The Arabidopsis mediator subunit MED25 differentially regulates jasmonate and abscisic acid signaling through interacting with the MYC2 and ABI5 transcription factors // Plant Cell, 2012. Vol. 24, N 7.-С.2898-2916
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| Talaat Iman M. Cyanogenic potential and oxidative enzymes in Linum usitatissimum L.Seedlings in relation to presowing seed treatment with methyl jasmonate // J. Appl. Bot., 2001. Vol. 75, N 5-6.-С.195-200
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| Talaat Iman M. Cyanogenic potential and oxidative enzymes in Linum usitatissimum L.Seedlings in relation to presowing seed treatment with methyl jasmonate // J. Appl. Bot., 2001. Vol. 75, N 5-6.-С.195-200
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| Sim Thmas D. Localization of allene oxide synthase, a jasmonate pathway enzyme, within specific tissues of soybean // Plant Physiol., 1994. Vol. 105, N 1 Suppl..-С.137
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| Shoji Why does anatabine, but not nicotine, accumulate in jasmonate-elicited cultured tobacco BY-2 cells? // Plant and Cell Physiol., 2008. Vol. 49, N 8.-С.1209-1216
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| Selective desensitization of jasmonate- and pH-dependent signaling in the induction of benzophenanthridine biosynthesis in cell of Eschscholzia californica // Phytochemistry, 2003. Vol. 62, N 3.-С.491-500
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| Schaller Enzymes in jasmonate biosynthesis - structure, function, regulation // Phytochemistry, 2009. Vol. 70, N 13-14.-С.1532-1538
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| Root growth dynamics of Nicotiana attenuata seedlings are affected by simulated herbivore attack // Plant, Cell and Environ., 2007. Vol. 30, N 10.-С.1326-1336
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