Effect of drought stress on wheat (Triticum durum) growth and metabolism: insight from GABA shunt, reactive oxygen species and dehydrin genes expression.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-01 DOI:10.1071/FP22177
Nisreen A Al-Quraan, Nezar H Samarah, Ayah A Tanash
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Abstract

Activation of γ-aminobutyric acid (GABA) shunt pathway and upregulation of dehydrins are involved in metabolic homeostasis and protective mechanisms against drought stress. Seed germination percentage, seedling growth, levels of GABA, alanine, glutamate, malondialdehyde (MDA), and the expression of glutamate decarboxylase (GAD ) and dehydrin (dhn and wcor ) genes were examined in post-germination and seedlings of four durum wheat (Triticum durum L.) cultivars in response to water holding capacity levels (80%, 50%, and 20%). Data showed a significant decrease in seed germination percentage, seedling length, fresh and dry weight, and water content as water holding capacity level was decreased. Levels of GABA, alanine, glutamate, and MDA were significantly increased with a negative correlation in post-germination and seedling stages as water holding capacity level was decreased. Prolonged exposure to drought stress increased the GAD expression that activated GABA shunt pathway especially at seedlings growth stage to maintain carbon/nitrogen balance, amino acids and carbohydrates metabolism, and plant growth regulation under drought stress. The mRNA transcripts of dhn and wcor significantly increased as water availability decreased in all wheat cultivars during the post-germination stage presumably to enhance plant tolerance to drought stress by cell membrane protection, cryoprotection of enzymes, and prevention of reactive oxygen species (ROS) accumulation. This study showed that the four durum wheat cultivars responded differently to drought stress especially during the seedling growth stage which might be connected with ROS scavenging systems and the activation of antioxidant enzymes that were associated with activation of GABA shunt pathway and the production of GABA in durum seedlings.

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干旱胁迫对小麦(Triticum durum)生长和新陈代谢的影响:从 GABA 分流、活性氧和脱水素基因表达的角度看问题。
γ-氨基丁酸(GABA)分流途径的激活和脱水素的上调参与了代谢平衡和干旱胁迫的保护机制。研究了四种硬粒小麦(Triticum durum L.)发芽后和幼苗中 GABA、丙氨酸、谷氨酸、丙二醛(MDA)水平以及谷氨酸脱羧酶(GAD)和脱水素(dhn 和 wcor)基因的表达对持水能力水平(80%、50% 和 20%)的响应。数据显示,随着持水量水平的降低,种子发芽率、幼苗长度、鲜重和干重以及含水量都明显下降。随着持水量的降低,GABA、丙氨酸、谷氨酸和 MDA 的水平在发芽后和幼苗期显著增加,且呈负相关。长期遭受干旱胁迫会增加 GAD 的表达,从而激活 GABA 分流途径,特别是在幼苗生长阶段,以维持干旱胁迫下的碳氮平衡、氨基酸和碳水化合物代谢以及植物生长调节。所有小麦品种在发芽后阶段,随着水分供应量的减少,dhn 和 wcor 的 mRNA 转录物显著增加,这可能是通过细胞膜保护、酶的低温保护和防止活性氧(ROS)积累来提高植物对干旱胁迫的耐受性。这项研究表明,四种硬粒小麦品种对干旱胁迫的反应不同,尤其是在幼苗生长阶段,这可能与 ROS 清除系统和抗氧化酶的激活有关,而抗氧化酶的激活与硬粒小麦幼苗 GABA 分流途径的激活和 GABA 的产生有关。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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