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斯氏假单胞菌AS22胞外多糖产量的优化及其金属结合能力的研究。

Optimization of exopolysaccharide production from Pseudomonas stutzeri AS22 and examination of its metal-binding abilities.

作者信息

Maalej H, Hmidet N, Boisset C, Buon L, Heyraud A, Nasri M

机构信息

Laboratoire de Génie Enzymatique et de Microbiologie, Université de Sfax-Ecole Nationale d'Ingénieurs de Sfax, Sfax, Tunisia.

出版信息

J Appl Microbiol. 2015 Feb;118(2):356-67. doi: 10.1111/jam.12688. Epub 2014 Dec 29.

Abstract

AIMS

To investigate the effect of culture conditions and medium components on exopolysaccharide (EPS) production by Pseudomonas stutzeri AS22 and to access the EPS performance as a metal-binding exopolysaccharide.

METHODS AND RESULTS

The EPS production conditions of Ps. stutzeri AS22 in submerged culture were optimized using two approaches for EPS quantification, and its metal-binding capacity was evaluated using both single and mixed metal ions systems. Maximum EPS level was achieved after 24 h of incubation at 30°C with an initial pH of 8.0, 250 rev min(-1) stirring level and 10% inoculum size. 50 g l(-1) starch, 5 g l(-1) yeast extract, 0.5 g l(-1) NaCl, 1.4 g l(-1) K2 HPO4, 0.4 g l(-1) MgSO4, 0.4 g l(-1) CaCl2 and 1 g l(-1) mannose were found to be the most suitable carbon, nitrogen, mineral and additional carbohydrate sources, respectively. From metal-binding experiments, the crude EPS showed interesting metal adsorption capacity adopting the order Pb >> Co > Fe > Cu >> Cd. Lead was preferentially biosorbed with a maximal uptake of 460 mg g(-1) crude EPS.

CONCLUSIONS

Under the optimal culture requirements, EPS level reached 10.2 g l(-1) after 24 h of fermentation, seven times more than the production under initial conditions. According to the metal-binding assay, the crude EPS has potential to be used as a novel biosorbent in the treatment of heavy metals-contaminated water.

SIGNIFICANCE AND IMPACT OF THE STUDY

Our results are interesting in terms of yield as well as efficiency for the potential use of the Ps. stutzeri exopolysaccharide as a metal-absorbent polymer in the bioremediation field.

摘要

目的

研究培养条件和培养基成分对施氏假单胞菌AS22产生胞外多糖(EPS)的影响,并评估该EPS作为金属结合胞外多糖的性能。

方法与结果

采用两种EPS定量方法优化了施氏假单胞菌AS22在深层培养中的EPS生产条件,并使用单金属离子和混合金属离子系统评估了其金属结合能力。在30°C、初始pH值为8.0、搅拌速度为250转/分钟、接种量为10%的条件下培养24小时后,EPS产量达到最高。发现50 g/L淀粉、5 g/L酵母提取物、0.5 g/L NaCl、1.4 g/L K2HPO4、0.4 g/L MgSO4、0.4 g/L CaCl2和1 g/L甘露糖分别是最合适的碳源、氮源、矿物质和额外碳水化合物来源。从金属结合实验来看,粗EPS表现出有趣的金属吸附能力,吸附顺序为Pb >> Co > Fe > Cu >> Cd。铅被优先生物吸附,粗EPS对铅的最大吸附量为460 mg/g。

结论

在最佳培养条件下,发酵24小时后EPS产量达到10.2 g/L,是初始条件下产量的7倍。根据金属结合分析,粗EPS有潜力作为一种新型生物吸附剂用于处理重金属污染水。

研究的意义和影响

我们的研究结果在产量以及施氏假单胞菌胞外多糖作为生物修复领域金属吸附聚合物的潜在应用效率方面都很有意义。

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