酸雨诱发的猴头菌的显微观察。

S. Behera, P. Mishra, Shyamasree Ghosh, C. Goswami, B. Mallick
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引用次数: 1

摘要

据报道,酸雨会在植物中引发胁迫,影响其生产力、生长、开花和生理。由于酸雨或酸诱导的定向或叶绿体流动的影响,植物中诱导的分子变化在很大程度上仍然未知。因此,在本研究中,我们首次报道了由于硫模拟酸雨(S-SiAR)引起的药用植物巴豆细胞的静态和永久性变化。AR诱导的效应表现为淀粉颗粒和叶绿体的大小、单位面积颗粒的数量、溶解细胞壁、破坏正常纤维、盐诱导的细胞各成分应变的减少。利用光学、共聚焦和扫描电镜技术分析了S-SiAR对淀粉颗粒和叶绿体的影响。叶绿体中存在的元素,即钾和镁,由于通过Mg和K的电离(到Mg2+和K+)观察到的S-SiAR的作用而显示酸性pH,其中由S-SiAR作用诱导的K+显示约-87.55mV的净负能斯特电位。钙主要存在于细胞壁上,负责淀粉颗粒的结合,在与AR相互作用时,钙离子化为Ca2+,如+137.04 mV的能斯特电位所示。净电位差可能导致叶绿体向大淀粉颗粒流动。本研究首次报道了AR诱导药用植物蒙氏乳杆菌的生理变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microscopic Observation of Acid Rain Induced Bacopa monnieri L.
Acid rain (AR) has been reported to induce stress in plants affecting its productivity, growth, flowering and physiology. The molecular changes induced in plants due to the effect of acid rain or acid induced orientation or chloroplast streaming remains largely unknown. Therefore, in the current study we report for the first time the static and permanent changes in the cell of the medicinal plant Bacopa monnieri L. due to sulphur-simulated acid rain (S-SiAR). AR induced effects witnessed by the reduction of the size of starch granules and chloroplast, amount of the granules per unit area, dissolving cell walls, breaking the normal fiber, salt-induced strain in the various components of the cell. Effect of starch granule and chloroplast due to S-SiAR was analyzed using light, confocal and scanning electron microscopic techniques. The elements viz. potassium and magnesium present in the chloroplasts reveal acidic pH due to effect of S-SiAR observed by the ionization of Mg and K (to Mg2+ and K+), in which K+ induced by the effects of S-SiAR revealed a net negative Nernst potential of about -87.55 mV. Calcium is mainly present on the cell walls and responsible for binding of starch granules become ionized to Ca2+ on interacting with AR indicated by the altered Nernst potential of +137.04 mV. A net potential difference may cause the above streaming of chloroplast towards the large starch granules. From this study, we report AR-induced physiological changes in medicinal plant Bacopa monnieri L. for the first time.
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