Effect of iron oxide nanoparticles on the growth of maize sprouts cultivated under drought stress and on the activity dynamics of NADP-ISDH enzyme

N. Aliyeva, K. R. Tagiyeva, Z. M. Mamedov, I. Azizov
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Abstract

The effect of iron oxide nanoparticles (FeNPs-Fe 2 O 3 ) on the growth of maize sprouts ( Zea mays L. ) cultivated under drought conditions and on the activity dynamics of the NADP-ISDH enzyme in the root and leaf cells of the plant has been studied. In the conducted experiments, it has been observed that nanoparticles have a stimulating effect on the samples of the maize plant cultivated under both control and drought conditions. Thus, in 15-day-old sprouts, compared to the control, in the sprouts developed from seeds treated with nanoparticles, the root has advanced by 27.8%, and stem 32.7%. In the samples cultivated under drought conditions, the sprouts developed from seeds treated with nanoparticles, the root has progressed by 21.5% and the stem by 25.9% compared to the other option (only drought). The induction of NADPH-ISDH enzyme has been recorded in root and leaf tissues in all variants related to the growth of sprouts during the first 10 days of the experiment. The highest value of enzyme activity
氧化铁纳米颗粒对干旱胁迫下玉米芽生长及NADP-ISDH酶活性动态的影响
氧化铁纳米颗粒(fenps - fe2o3)对玉米芽生长的影响研究了干旱栽培条件下植物根和叶细胞中NADP-ISDH酶的活性动态。在进行的实验中,已经观察到纳米粒子对在对照和干旱条件下种植的玉米植株样品具有刺激作用。因此,在15天的芽中,与对照组相比,由纳米颗粒处理的种子发育的芽,根增长了27.8%,茎增长了32.7%。在干旱条件下培养的样品中,与其他选择(仅干旱)相比,用纳米颗粒处理的种子发芽,根生长了21.5%,茎生长了25.9%。在试验的前10天,与芽生长有关的所有变异的根和叶组织中都记录到了NADPH-ISDH酶的诱导。酶活性值最高
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