与拟南芥植株组织相比,ABA生物合成缺陷突变体在干旱胁迫下减少了番茄叶片中游离氨基酸的积累

A. Asbahi, M. A. A. Maqtari, Khalid Mohammed Naji
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引用次数: 12

摘要

植物耐受干旱条件的能力对植物生存和全球作物生产至关重要。本研究证实了以往的研究结果,即ABA含量与氨基酸积累之间存在密切的关系,ABA是许多植物在水分胁迫下激活的最重要防御机制之一。因此,测量游离氨基酸以确定代谢产物池中与ABA含量相关的任何变化。拟南芥ABA缺陷突变体在Whatman 3mm滤纸上对拟南芥叶片进行室温脱水处理,番茄突变体对番茄植株进行不浇水的干旱胁迫处理。为了了解渗透胁迫调节基因诱导和激活渗透保护剂游离氨基酸合成基因的信号转导机制,我们对干旱胁迫条件下ABA生物合成缺陷拟南芥进行了遗传筛选。目前的研究结果表明,在水分胁迫的组织中,特定的游离氨基酸积累,其中大多数游离氨基酸增加,特别是那些起渗透保护作用的氨基酸,如脯氨酸和甘氨酸。干旱胁迫相关氨基酸含量在水分胁迫条件下显著降低,而在野生型植物中显著升高。胁迫条件下突变植株中其他氨基酸的积累量较高,说明它们的表达受ABA独立通路的调控。此外,在水分胁迫条件下,游离氨基酸含量的变化表明它们作为常见的相容渗透物质在抗旱方面的贡献。
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ABA biosynthesis defective mutants reduce some free amino acids accumulation under drought stress in tomato leaves in comparison with Arabidopsis plants tissues
The ability of plants to tolerate drought conditions is crucial for plant survival and crop production worldwide. The present data confirm previous findings reported existence of a strong relation between abscisic acid (ABA) content and amino acid accumulation as response water stress which is one of the most important defense mechanism activated during water stress in many plant species. Therefore, free amino acids were measured to determine any changes in the metabolite pool in relation to ABA content. The ABA defective mutants of Arabidopsis plants were subjected to leaf dehydration for Arabidopsis on Whatman 3 mm filter paper at room temperature while, tomato mutant plants were subjected to drought stresses for tomato plants by withholding water. To understand the signal transduction mechanisms underlying osmotic stress-regulating gene induction and activation of osmoprotectant free amino acid synthesizing genes, we carried out a genetic screen to isolate Arabidopsis mutants defective in ABA biosynthesis under drought stress conditions. The present results revealed an accumulation of specific free amino acid in water stressed tissues in which majority of free amino acids are increased especially those playing an osmoprotectant role such as proline and glycine. Drought stress related Amino acids contents are significantly reduced in the mutants under water stress condition while they are increased significantly in the wild types plants. The exhibited higher accumulation of other amino acids under stressed condition in the mutant plants suggest that, their expressions are regulated in an ABA independent pathways. In addition, free amino acids content changes during water stress condition suggest their contribution in drought toleration as common compatible osmolytes.
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ABA biosynthesis defective mutants reduce some free amino acids accumulation under drought stress in tomato leaves in comparison with Arabidopsis plants tissues Evaluation of genetic diversity of an Algerian durum wheat (triticum durum desf.) collection.
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