鞭毛菜素诱导的 GABA 分流提高了甘蓝型油菜的抗旱能力

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Şerife Palabıyık, İrem Çetinkaya, Tülay Alp Öztürk, Melike Bor
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引用次数: 0

摘要

众所周知,高 GABA 水平及其通过 GABA 分流转化为琥珀酸与植物的非生物和生物胁迫耐受性有关。确切的作用模式仍在争论之中,GABA 是否是植物胁迫防御过程中的常见成分也尚不清楚。我们假设,如果 GABA 分流是胁迫耐受性的常见途径,那么生物胁迫因子对 GABA 分流的激活也可能增强非生物胁迫耐受性。为了验证这一点,我们将用 Flagellin-22 (Flg-22)处理过的甘蓝型油菜植株置于干旱胁迫下,并比较了叶片和根部样本中 GABA 水平以及 GABA 分流成分(生物合成酶和分解酶活性)的差异。为了提供更好的前景,我们还分析了 MYC2、MPK6 和 ZAT12 的表达谱,因为这些基因最近被认为在非生物和生物胁迫耐受性中发挥作用。简而言之,我们发现Flg处理可通过GABA分流提高油菜对干旱胁迫的耐受性,MAPK级联也参与其中,但叶片和根的起始时间不同。Flg 处理促进了 GABA 的生物合成,增加了叶片中 GABA 的含量和 GAD 的活性。由于叶片和根部的 GABA-T 和 SSADH 活性被高度诱导,Flg 处理的植株在干旱胁迫下表现更佳可能取决于 GABA 分流的激活,GABA 分流将琥珀酸提供给 TCA。在转录本分析中,Flg + 干旱胁迫组有较高的 MYC2 转录本丰度,这与 GABA 含量和 GABA 分流有很好的相关性,而 MPK6 的表达只在 Flg + 干旱胁迫组的根部被诱导。ZAT12 在叶片和根部也受到 Flg-22 处理的诱导。然而,只有在 Flg + 干旱胁迫组中才能提出与 GABA 和 GABA 分流的相关性。我们提供了 GABA 分流和 Fgl-22 如何在叶片和根组织中相互作用对抗非生物胁迫的可靠数据。Fgl-22诱导的ETI激活了GABA-shunt,MYC2和ZAT12转录因子之间可能存在交叉作用,从而提高了油菜对干旱胁迫的耐受性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flagellin Induced GABA-shunt improves Drought stress tolerance in Brassica napus L
High GABA levels and its conversion to succinate via the GABA shunt are known to be associated with abiotic and biotic stress tolerance in plants. The exact mode of action is still under debate and it is not yet clear whether GABA is a common component of the plant stress defense process or not. We hypothesized that if it is a common route for stress tolerance, activation of GABA-shunt by a biotic stressor might also function in increased abiotic stress tolerance. To test this, Brassica napus plants treated with Flagellin-22 (Flg-22) were exposed to drought stress and the differences in GABA levels along with GABA-shunt components (biosynthetic and catabolic enzyme activities) in the leaf and root samples were compared. In order to provide a better outlook, MYC2, MPK6 and ZAT12, expression profiles were also analyzed since these genes were recently proposed to function in abiotic and biotic stress tolerance. Briefly, we found that Flg treatment increased drought stress tolerance in B. napus via GABA-shunt and the MAPK cascade was involved while the onset was different between leaves and roots. Flg treatment promoted GABA biosynthesis with increased GABA content and GAD activity in the leaves. Better performance of the Flg treated plants under drought stress might be dependent on the activation of GABA-shunt which provides succinate to TCA since GABA-T and SSADH activities were highly induced in the leaves and roots. In the transcript analysis, Flg + drought stressed groups had higher MYC2 transcript abundances correlated well with the GABA content and GABA-shunt while, MPK6 expression was induced only in the roots of the Flg + drought stressed groups. ZAT12 was also induced both in leaves and roots as a result of Flg-22 treatment. However, correlation with GABA and GABA-shunt could be proposed only in Flg + drought stressed group. We provided solid data on how GABA-shunt and Fgl-22 are interacting against abiotic stress in leaf and root tissues. Fgl-22 induced ETI activated GABA-shunt with a plausible cross talk between MYC2 and ZAT12 transcription factors for drought stress tolerance in B. napus.
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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