单端孢霉烯 T2毒素对薤白根尖分生组织细胞的细胞毒作用

Nasreen Jalal Hussein, A. A. Saadullah
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引用次数: 0

摘要

单端孢霉烯 T2 是一种来自镰刀菌的霉菌毒素。本研究旨在利用大蒜试验系统,测试单端孢霉烯毒素 T2 对有丝分裂指数%(M.I.%)和有丝分裂畸变诱导的影响。毒素浓度(ppm)分别为 0.00、0.30、0.60、0.90 和 1.20,持续 12 小时。然后切下大蒜根部,用壁虱制备有丝分裂切片,并在显微镜下进行观察。结果表明,与对照组相比,霉菌毒素在所有浓度下都有明显的有丝分裂抑制作用,有丝分裂率的降低与毒素浓度的增加成正比。此外,随着霉菌毒素浓度的增加,有丝分裂异常率(MA%)也随之增加。观察到的有丝分裂异常现象包括星形无丝分裂、粘连的分裂相、C-有丝分裂、粘连的无丝分裂、去极化、微核、染色体滞后、无丝分裂桥和染色体缺失。与最常见的染色体滞后异常相比,最不常见的异常是微核。随着毒素剂量浓度的增加,有丝分裂异常总数明显增加。这些结果表明,这种霉菌毒素可抑制分生组织细胞的有丝分裂活动;它具有致突变性,在任何浓度下都会破坏分裂细胞的纺锤体纤维活动,尤其是在食品中的剂量较高时。因此,必须检测食品中是否有真菌产生这种霉菌毒素:霉菌毒素;有丝分裂抑制;根尖;纺锤体纤维;致突变性
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cytogenotoxic effect of trichothecene T2 toxin on Allium sativum root tip meristematic cells
Trichothecene T2 is a mycotoxin from the Fusarium species. This research aims to test the effect of the Trichothecene T2 toxin on mitotic index% (M.I.%) and induction of mitotic aberrations by using the Allium sativum (garlic) test system. The toxin concentrations in ppm were 0.00, 0.30, 0.60, 0.90, and 1.20 for 12 hours. The garlic roots were then cut, and mitotic slides were prepared using squash and examined under a light microscope. The results revealed that the mycotoxin has a significant mitodepressive effect at all concentrations compared to the control, and the MI% reduction was proportional to increasing toxin concentration. The highest reduction in mitotic index was observed in the 1.2 ppm treatment. Moreover, this mycotoxin induced and increased the rate of mitotic abnormalities% (MA%) with increasing the mycotoxin concentration. The observed mitotic abnormalities were star-shaped anaphase, sticky metaphase, C-mitosis, sticky anaphase, depolarization, micronuclei, laggard chromosomes, anaphase bridges, and chromosome loss. The least frequently observed abnormality was micronuclei compared to the most frequent aberration, laggard chromosomes. The total mitotic abnormalities significantly increased with increasing the toxin dose concentration. These results suggest that this mycotoxin can inhibit the mitotic activity of the meristematic cells; it is mutagenic and can disrupt the spindle fibers' activity of the dividing cells at all concentrations, especially at higher doses in food. Therefore, the foods must be tested for fungi producing this mycotoxin. Keywords: Mycotoxin; mitodepressive; root tip; spindle fibers; mutagenic
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