山梨糖醇刺激渗透胁迫对蓍草愈伤组织形成和樟脑聚集的影响

Muhammed Akif Açıkgöz, Ahmet Aygün, Ebru Batı Ay, Şevket Metin Kara
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摘要

山梨糖醇是一种重要的非生物应激源,用于增加细胞培养中的渗透压。增加应激状态下细胞抗氧化酶防御过氧化氢酶(CAT)、过氧化物酶(POD)、超氧化物歧化酶(SOD)。山梨糖醇在刺激细胞内这些酶和提高苯丙氨酸解铵酶(PAL)活性方面起着重要作用。本研究的目的是在细胞悬浮培养中增加山梨糖醇激发剂的剂量,以确定细胞数量、活力、干重和樟脑含量的变化。以植物种子和茎段为外植体,获得离体植株。愈伤组织形成后进行细胞培养。然后将0(对照)、5、25和50 g L-1山梨醇溶于蒸馏水中培养。从第1天到第3天,共取样3次。采用气相色谱-质谱联用技术检测樟脑的含量。与取样次数相比,随着山梨醇剂量的增加,细胞数量、活力、干重和樟脑含量显著增加。与初始培养相比,5 g L-1剂量时樟脑的数量增加了40%,25 g L-1剂量增加了82%,50 g L-1剂量增加了154%。在A. gypsicola细胞培养中,增加山梨醇的剂量清楚地证明了次生代谢物的积累及其对细胞生长的积极作用。
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Callus formation and camphor aggregation in response to sorbitol stimulated osmotic stress in yarrow
Sorbitol is an important source of abiotic stress that is used to increase osmolality in cell cultures. It increases the antioxidant enzymes of defense catalase (CAT), peroxidase (POD), and superoxide dismutase (SOD) in the stress state of cells. Sorbitol plays an important role in stimulating these enzymes in cells and increasing phenylalanine ammonium lyase (PAL) activity. The aim of this study was to apply increasing doses of sorbitol elicitor to cell suspension cultures to determine the changes in cell number, viability, dry weight, and camphor content. In vitro plantlets were obtained from plant seeds and stem segments of these plants were used as explant source. Cell cultures were established after callus formation. Then, 0 (control), 5, 25, and 50 g L-1 sorbitol was dissolved in distilled water and cultured. Samples were taken three times in total, starting from day 1 to day 3. The content of camphor was detected by gas chromatography-mass spectrometry (GC-MS). Cell number, viability,dry weight, and camphor content increased significantly with increasing doses of sorbitol compared to sampling times. Compared to the initial culture, the amount of camphor increased by 40% at the 5 g L-1 dose, 82% at the 25 g L-1 dose, and 154% at the 50 g L-1 dose. In A. gypsicola cell cultures, increasing doses of sorbitol have clearly demonstrated the secondary metabolite accumulation and its positive effect on cell growth.
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