Ngan Bao Huynh, Paal Krokene, Line Nybakken, Vytautas Čėsna, Melissa H Mageroy
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引用次数: 0
摘要
激发挪威云杉(Picea abies)的诱导防御能力是保护幼树免受食草动物和病原体侵害的一种有效方法。众所周知,施用茉莉酸甲酯(MeJA)可诱导并潜在地增强挪威云杉的防御能力,但也可能降低植物的生长。因此,我们用2年生的挪威云杉植株测试了β-氨基丁酸(BABA)作为增强云杉抗性的另一种诱导化学物质。我们比较了受伤前后 BABA 或 MeJA 处理过的植株树皮和木质部组织的诱导性防御反应,即创伤性树脂导管的形成和防御性代谢物的积累。我们还评估了这些化学处理对挪威云杉抵抗致病性青霉(Grosmania penicilliata)的影响。BABA 没有诱导防御反应或病原体抗性,它甚至降低了处理植物中总萜烯的浓度。相反,MeJA能诱导创伤性树脂导管的形成、黄酮类化合物的积累和病原体的抗性,并且不影响植物的生长。研究首次表明,黄烷-3-醇(儿茶素)对挪威云杉的 MeJA 处理具有先导反应。我们的研究结果表明,在挪威云杉中,BABA 并非 MeJA 的合适替代催化化学物。
β-aminobutyric acid does not induce defenses or increase Norway spruce resistance to the bluestain fungus Grosmannia penicillata.
Priming of Norway spruce (Picea abies) inducible defenses is a promising way to protect young trees from herbivores and pathogens. Methyl jasmonate (MeJA) application is known to induce and potentially prime Norway spruce defenses but may also reduce plant growth. Therefore, we tested β-aminobutyric acid (BABA) as an alternative priming chemical to enhance spruce resistance, using 2-year-old Norway spruce plants. We compared inducible defense responses, i.e. traumatic resin duct formation and accumulation of defensive metabolites, in bark and xylem tissues of BABA- or MeJA-treated plants before and after wounding. We also evaluated the effect of these chemical treatments on Norway spruce resistance to the pathogenic bluestain fungus Grosmania penicilliata. BABA did not induce defense responses or pathogen resistance, it even reduced concentrations of total terpenes in the treated plants. In contrast, MeJA induced traumatic resin duct formation, accumulation of flavonoids, pathogen resistance, and did not affect plant growth. For the first time, flavan-3-ols (catechins) were shown to have a primed response to MeJA treatment in Norway spruce. Our results indicated that BABA is not a suitable alternative priming chemical to MeJA in Norway spruce.
期刊介绍:
Physiologia Plantarum is an international journal committed to publishing the best full-length original research papers that advance our understanding of primary mechanisms of plant development, growth and productivity as well as plant interactions with the biotic and abiotic environment. All organisational levels of experimental plant biology – from molecular and cell biology, biochemistry and biophysics to ecophysiology and global change biology – fall within the scope of the journal. The content is distributed between 5 main subject areas supervised by Subject Editors specialised in the respective domain: (1) biochemistry and metabolism, (2) ecophysiology, stress and adaptation, (3) uptake, transport and assimilation, (4) development, growth and differentiation, (5) photobiology and photosynthesis.