从石油污染土壤中分离生物表面活性剂产生菌及其优化和性质。
Isolation of biosurfactant producers, optimization and properties of biosurfactant produced by Acinetobacter sp. from petroleum-contaminated soil.
机构信息
Department of Pharmaceutical and Biological Engineering, School of Chemical Engineering, Sichuan University, Chengdu, China.
出版信息
J Appl Microbiol. 2012 Apr;112(4):660-71. doi: 10.1111/j.1365-2672.2012.05242.x. Epub 2012 Feb 20.
AIMS
To screen and identify biosurfactant producers from petroleum-contaminated soil; to use response surface methodology (RSM) for medium optimization to enhance biosurfactant production; and to study the properties of the newly obtained biosurfactant towards pH, temperature and salinity.
METHODS AND RESULTS
We successfully isolated three biosurfactant producers from petroleum-contaminated soil and identified them through 16S rRNA sequence analysis, which exhibit the highest similarities to Acinetobacter beijerinckii (100%), Kocuria marina (99%) and Kineococcus marinus (99%), respectively. A quadratic response model was constructed through RSM designs, leading to a 57·5% increase of the growth-associated biosurfactant production by Acinetobacter sp. YC-X 2 with an optimized medium: beef extract 3·12 g l(-1) ; peptone 20·87 g l(-1) ; NaCl 1·04 g l(-1); and n-hexadecane 1·86 g l(-1). Biosurfactant produced by Acinetobacter sp. YC-X 2 retained its properties during exposure to a wide range of pH values (5-11), high temperatures (up to 121°C) and high salinities [up to 18% (w/v) Na(+) and Ca(2+) ], which was more sensitive to Ca(2+) than Na(+).
CONCLUSIONS
Two novel biosurfactant producers were isolated from petroleum-contaminated soil. Biosurfactant from Acinetobacter sp. YC-X 2 has good properties to a wide range of pH, high temperature and high salinity, and its production was optimized successfully through RSM.
SIGNIFICANCE AND IMPACT OF THE STUDY
The fact, an increasing demand of high-quality surfactants and the lack of cost-competitive bioprocesses of biosurfactants for commercial utilization, motivates researchers to develop cost-effective strategies for biosurfactant production through isolating new biosurfactant producers with special surface-active properties and optimizing their cultural conditions. Two novel biosurfactant producers in this study will widen our knowledge about this kind of micro-organism. This work is the first application of RSM designs for cultural optimization of biosurfactant produced by Acinetobacter genus and the first report that biosurfactant may be more sensitive to Ca(2+) than Na(+) .
目的
从石油污染土壤中筛选和鉴定生物表面活性剂产生菌;利用响应面法(RSM)对培养基进行优化,以提高生物表面活性剂的产量;研究新获得的生物表面活性剂的性质,包括 pH 值、温度和盐度。
方法和结果
我们成功地从石油污染土壤中分离出三种生物表面活性剂产生菌,并通过 16S rRNA 序列分析进行鉴定,它们与不动杆菌(100%)、海洋分枝杆菌(99%)和海球菌(99%)的相似度最高。通过 RSM 设计构建了二次响应模型,导致不动杆菌 sp. YC-X2 的生长相关生物表面活性剂产量增加了 57.5%,优化后的培养基为:牛肉提取物 3.12 g/L;蛋白胨 20.87 g/L;NaCl 1.04 g/L;正十六烷 1.86 g/L。YC-X2 产生的生物表面活性剂在暴露于广泛的 pH 值(5-11)、高温(高达 121°C)和高盐度[高达 18%(w/v)Na+和 Ca2+]时保留其性质,对 Ca2+比对 Na+更敏感。
结论
从石油污染土壤中分离出两种新型生物表面活性剂产生菌。YC-X2 产生的生物表面活性剂具有良好的性质,能耐受广泛的 pH 值、高温和高盐度,并且通过 RSM 成功优化了其产量。
研究的意义和影响
对高质量表面活性剂的需求不断增加,而生物表面活性剂的成本效益型生物工艺缺乏,这促使研究人员通过分离具有特殊表面活性特性的新型生物表面活性剂产生菌,并优化其培养条件,开发出具有成本效益的生物表面活性剂生产策略。本研究中的两种新型生物表面活性剂产生菌将拓宽我们对这类微生物的认识。这是首次应用 RSM 设计对不动杆菌属产生的生物表面活性剂进行培养优化,也是首次报道生物表面活性剂可能对 Ca2+比对 Na+更敏感。
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