CombiningNitellopsis obtusaautofluorescence intensity and F680/F750 ratio to discriminate responses to environmental stressors.

IF 2.4 3区 化学 Q3 CHEMISTRY, ANALYTICAL
Ausrine Navickaite, Vilmantas Pupkis, Agne Kalnaityte-Vengeliene, Indre Lapeikaite, Vilma Kisnieriene, Saulius Bagdonas
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引用次数: 0

Abstract

Detection of autofluorescence parameters is a useful approach to gain insight into the physiological state of plants and algae, but the effect of reabsorption hinders unambiguous interpretation ofin vivodata. The exceptional morphological features ofNitellopsis obtusamade it possible to measure autofluorescence spectra along single internodal cells and estimate relative changes in autofluorescence intensity in selected spectral regions at room temperatures, avoiding the problems associated with thick or optically dense samples. The response of algal cells to controlled white light and DCMU herbicide was analyzed by monitoring changes in peak FL intensity at 680 nm and in F680/F750 ratio. Determining the association between the selected spectral FL parameters revealed an exponential relationship, which provides a quantitative description of photoinduced changes. The ability to discern the effect of DCMU not only in the autofluorescence spectra of dark-adapted cells, but also in the case of light-adapted cells, and even after certain doses of excess light, suggests that the proposed autofluorescence analysis ofN. obtusamay be useful for detecting external stressors in the field.

结合拟南芥自发荧光强度和 F680/F750 比率来区分对环境胁迫的反应。
检测自发荧光参数是深入了解植物和藻类生理状态的有效方法,但重吸收效应阻碍了对体内数据的明确解释。由于拟南芥(Nitellopsis obtus)的形态特征特殊,因此可以在室温下测量单个节间细胞的自发荧光光谱,并估算选定光谱区域自发荧光强度的相对变化,从而避免了厚样本或光学致密样本带来的问题。通过监测 680 纳米波长的荧光强度峰值和 F680/F750 比率的变化,分析了藻类细胞对受控白光和 DCMU 除草剂的反应。确定所选光谱 FL 参数之间的关联揭示了一种指数关系,这为光诱导变化提供了定量描述。不仅在暗适应细胞的自发荧光光谱中,而且在光适应细胞的自发荧光光谱中,甚至在一定剂量的过量光照后,都能分辨出 DCMU 的影响,这表明拟议的 N. obtus 自发荧光分析可能有助于在野外检测外部胁迫因素。
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来源期刊
Methods and Applications in Fluorescence
Methods and Applications in Fluorescence CHEMISTRY, ANALYTICALCHEMISTRY, PHYSICAL&n-CHEMISTRY, PHYSICAL
CiteScore
6.20
自引率
3.10%
发文量
60
期刊介绍: Methods and Applications in Fluorescence focuses on new developments in fluorescence spectroscopy, imaging, microscopy, fluorescent probes, labels and (nano)materials. It will feature both methods and advanced (bio)applications and accepts original research articles, reviews and technical notes.
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