镧与盐单胞菌细胞裂解物水凝胶复合材料作为吸附材料。

Hydrogel composite of lanthanum and Halorubrum ejinoor sp. cell lysate as an adsorbing material.

机构信息

College of Chemistry and Environmental Science, Inner Mongolia Normal University, Hohhot, 010020, China.

Inner Mongolia Key Laboratory of Environmental Chemistry, Inner Mongolia Normal University, Hohhot, 010020, China.

出版信息

Biotechnol Lett. 2021 Jul;43(7):1443-1453. doi: 10.1007/s10529-021-03132-y. Epub 2021 Apr 20.

DOI:10.1007/s10529-021-03132-y

PMID:33877517

Abstract

OBJECTIVES

Although halophilic archaea are rich in natural environments, their biotechnological applications are not as prevalent as those of other extremophiles, such as thermophiles and alkaliphiles. This study presents an simple method to prepare a hydrogel composite using crude cell lysate of a halophilic archaea, Halorubrum ejinoor sp. (H.e.) which was isolated from a saline lake in Inner Mongolia, China. Furthermore, formation mechanism and potential applications of the hydrogel as an adsorbing material are discussed.

RESULTS

Halorubrum ejinoor sp. (H.e.) cell lysate was firstly prepared by adding pure water onto the H.e. cell pellet, followed by a short incubation at 60 °C. The cell lysate was injected into different metal ion (or H) solutions to obtain the hydrogel composite. It was observed that H, Fe, La, Cu, and Ca induced gelation of the cell lysate, while Fe, Co, Ni, Mg, Na, and K did not. DNA and extracellular polysaccharides (EPS) in the H.e. cell lysate were found to be responsible for the gelation reaction. These results suggest that DNA and EPS should be crosslinked by metal ions (or H) and form a networked structure in which the metal ion (or H) serves as an anchor point. Potential application of the hydrogel as an adsorbing material was explored using La-induced H.e. hydrogel composite. The hydrogel composite can adsorb the fluoride, phosphate and DNA-binding carcinogenic agents, such as acridine orange.

CONCLUSIONS

The simplicity and cost effectiveness of the preparation method might make H.e. hydrogel a promising adsorbing material. This work is expected to expand the technical applications of haloarchaea.

摘要

目的

尽管嗜盐古菌在自然环境中丰富，但它们的生物技术应用并不像其他极端微生物（如嗜热菌和嗜碱菌）那样广泛。本研究提出了一种使用中国内蒙古盐湖分离的嗜盐古菌 Halorubrum ejinoor sp.（H.e.）粗细胞裂解物制备水凝胶复合材料的简单方法。此外，还讨论了水凝胶作为吸附材料的形成机制和潜在应用。

结果

首先通过向 H.e.细胞沉淀中加入纯水，然后在 60°C 短时间孵育来制备 H.e.细胞裂解物。将细胞裂解物注入不同的金属离子（或 H）溶液中以获得水凝胶复合材料。观察到 H、Fe、La、Cu 和 Ca 诱导细胞裂解物凝胶化，而 Fe、Co、Ni、Mg、Na 和 K 则没有。在 H.e.细胞裂解物中发现 DNA 和胞外多糖（EPS）负责凝胶化反应。这些结果表明 DNA 和 EPS 应该通过金属离子（或 H）交联，并形成一个网络结构，其中金属离子（或 H）作为锚点。使用 La 诱导的 H.e.水凝胶复合材料探索了水凝胶作为吸附材料的潜在应用。水凝胶复合材料可以吸附氟化物、磷酸盐和 DNA 结合致癌剂，如吖啶橙。

结论

制备方法的简单性和成本效益可能使 H.e.水凝胶成为一种有前途的吸附材料。这项工作有望扩展 haloarchaea 的技术应用。

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镧与盐单胞菌细胞裂解物水凝胶复合材料作为吸附材料。

Hydrogel composite of lanthanum and Halorubrum ejinoor sp. cell lysate as an adsorbing material.

机构信息

出版信息

OBJECTIVES

RESULTS

CONCLUSIONS

目的

结果

结论

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