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基于红外荧光氧敏纳米颗粒的微孔板中溶解氧张力的在线监测

Online monitoring of dissolved oxygen tension in microtiter plates based on infrared fluorescent oxygen-sensitive nanoparticles.

作者信息

Ladner Tobias, Flitsch David, Schlepütz Tino, Büchs Jochen

机构信息

AVT, Aachener Verfahrenstechnik, Biochemical Engineering, RWTH Aachen University, Worringerweg 1, 52074, Aachen, Germany.

出版信息

Microb Cell Fact. 2015 Oct 9;14:161. doi: 10.1186/s12934-015-0347-9.

Abstract

BACKGROUND

During the past years, new high-throughput screening systems with capabilities of online monitoring turned out to be powerful tools for the characterization of microbial cell cultures. These systems are often easy to use, offer economic advantages compared to larger systems and allow to determine many important process parameters within short time. Fluorescent protein tags tremendously simplified the tracking and observation of cellular activity in vivo. Unfortunately, interferences between established fluorescence based dissolved oxygen tension (DOT) measurement techniques and fluorescence-based protein tags appeared. Therefore, the applicability of new oxygen-sensitive nanoparticles operated within the more suitable infrared wavelength region are introduced and validated for DOT measurement.

RESULTS

The biocompatibility of the used dispersed oxygen-sensitive nanoparticles was proven via RAMOS cultivations for Hansenula polymorpha, Gluconobacter oxydans, and Escherichia coli. The applicability of the introduced DOT measurement technique for online monitoring of cultivations was demonstrated and successfully validated. The nanoparticles showed no disturbing effect on the online measurement of the fluorescence intensities of the proteins GFP, mCherry and YFP measured by a BioLector prototype. Additionally, the DOT measurement was not influenced by changing concentrations of these proteins. The kLa values for the applied cultivation conditions were successfully determined based on the measured DOT.

CONCLUSIONS

The introduced technique appeared to be practically as well as economically advantageous for DOT online measuring in microtiter plates. The disadvantage of limited availability of microtiter plates with immobilized sensor spots (optodes) does not apply for this introduced technique. Due to the infrared wavelength range, used for the DOT measurement, no interferences with biogenic fluorescence or with expressed fluorescent proteins (e.g. YFP, GFP or mCherry) occur.

摘要

背景

在过去几年中,具有在线监测功能的新型高通量筛选系统已成为表征微生物细胞培养物的强大工具。这些系统通常易于使用,与大型系统相比具有经济优势,并且能够在短时间内确定许多重要的过程参数。荧光蛋白标签极大地简化了体内细胞活性的追踪和观察。不幸的是,已有的基于荧光的溶解氧张力(DOT)测量技术与基于荧光的蛋白标签之间出现了干扰。因此,引入并验证了在更合适的红外波长区域运行的新型氧敏感纳米颗粒在DOT测量中的适用性。

结果

通过对多形汉逊酵母、氧化葡萄糖杆菌和大肠杆菌的拉莫斯培养,证明了所用分散氧敏感纳米颗粒的生物相容性。证明并成功验证了引入的DOT测量技术在培养物在线监测中的适用性。纳米颗粒对BioLector原型测量的蛋白质GFP、mCherry和YFP的荧光强度在线测量没有干扰作用。此外,DOT测量不受这些蛋白质浓度变化的影响。基于测得的DOT成功确定了应用培养条件下的kLa值。

结论

所引入的技术对于微量滴定板中的DOT在线测量在实际应用和经济方面似乎都具有优势。带有固定传感器点(光极)的微量滴定板可用性有限这一缺点不适用于此引入的技术。由于用于DOT测量的红外波长范围,不会与生物荧光或表达的荧光蛋白(例如YFP、GFP或mCherry)产生干扰。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5ec7/4600283/ac54b657ffe9/12934_2015_347_Fig1_HTML.jpg

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