New ratiometric optical oxygen and pH dual sensors with three emission colors for measuring photosynthetic activity in Cyanobacteria.

Journal of Materials Chemistry Pub Date : 2011-01-01 Epub Date: 2011-11-03 DOI:10.1039/C1JM13754A
Hongguang Lu, Yuguang Jin, Yanqing Tian, Weiwen Zhang, Mark R Holl, Deirdre R Meldrum
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引用次数: 0

Abstract

Photosynthetic algae and cyanobacteria have been proposed for producing biofuels through a direct photoconversion process. To accelerate the efforts of discovering and screening microbes for biofuel production, sensitive and high throughput methods to measure photosynthetic activity need to be developed. Here we report the development of new ratiometric optical oxygen and pH dual sensors with three emission colors for measuring photosynthetic activities directly. The dual sensor system can measure oxygen (O(2)) generation and pH increase resulted from carbon dioxide (CO(2)) consumption simultaneously. The sensor was prepared by a copolymerization of three monomeric probes, an intra-reference probe (IRP) which does not respond to pH or O(2), a probe for pH sensing (pHS), and an O(2) probe for O(2) sensing (OS) with 2-hydroxyethyl methacrylate (HEMA) and acrylamide (AM). After polymerization, the three probes were chemically immobilized in an ion and O(2) permeable poly(2-hydroxyethyl methacrylate)-co-polyacrylamide (PHEMA-co-PAM) matrix. The resulted sensing films (membranes) exhibited three emission colors with well separated emission spectra, covering blue, green, and red emission windows, under 380 nm light excitation. Responses of the sensors to pH and dissolved O(2) were investigated in buffers and cyanobacterial cell cultures (Synechocystis sp. PCC 6803). In spite of the strong autofluorescence from cyanobacteria, the sensors were able to determine the pH values and dissolved O(2) concentrations accurately and reproducibly. The measured results using the optical sensors were well in accordance with measurements using electrodes with minimal experimental variations. The sensors were further applied for evaluation of photosynthetic activities of Synechocystis sp. PCC 6803 at the exponential and stationary phases. The results were consistent with biological observation that the photosynthetic activity in the exponential phase was higher than that in the stationary phase.

用于测量蓝藻光合作用活性的新型比率光学氧和 pH 双传感器,具有三种发射颜色。
有人建议利用光合藻类和蓝藻通过直接光电转换过程生产生物燃料。为了加快发现和筛选用于生产生物燃料的微生物,需要开发灵敏和高通量的光合作用活性测量方法。在此,我们报告了新型比率测量光学氧气和 pH 双传感器的开发情况,该传感器具有三种发射颜色,可直接测量光合作用活动。该双传感器系统可同时测量氧气(O(2))的产生和二氧化碳(CO(2))消耗导致的 pH 值升高。该传感器由三种单体探针与 2- 羟乙基甲基丙烯酸酯(HEMA)和丙烯酰胺(AM)共聚制备而成,这三种探针分别是对 pH 和 O(2)均无反应的内部参考探针(IRP)、用于 pH 传感的探针(pHS)和用于 O(2)传感的 O(2)探针(OS)。聚合后,这三种探针被化学固定在离子和 O(2)渗透性聚(2-羟乙基甲基丙烯酸酯)-共聚丙烯酰胺(PHEMA-co-PAM)基质中。在 380 纳米波长的光激发下,生成的传感薄膜(膜)显示出三种不同颜色的发射光谱,包括蓝色、绿色和红色发射窗口。研究人员在缓冲液和蓝藻细胞培养物(Synechocystis sp.尽管蓝藻会发出强烈的自发荧光,但传感器仍能准确地测定 pH 值和溶解氧(2)的浓度,而且重复性很好。使用光学传感器测得的结果与使用电极测得的结果完全一致,实验变化极小。传感器还被进一步用于评估 Synechocystis sp.结果与生物学观察结果一致,即指数期的光合作用活性高于静止期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Materials Chemistry
Journal of Materials Chemistry 工程技术-材料科学:综合
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1.5 months
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