利用响应面法优化地衣芽孢杆菌DSM13生产生物表面活性剂

IF 0.5 Q4 ENGINEERING, CHEMICAL
J. Sakiyo, Á. Németh
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引用次数: 1

摘要

生物表面活性剂是一种具有表面活性的化合物,可以降低水溶液和碳氢化合物混合物中的表面张力,近年来由于其毒性较低而变得更有价值,通常被称为绿色或有机表面活性剂。这些产品在提高生物降解率和有机污染物的生物利用度方面比化学表面活性剂要好得多。真菌、酵母和细菌主要能够产生微生物生物表面活性剂。细菌,尤其是芽孢杆菌,是应用和研究最多的生物表面活性剂的生产者之一。本研究考察了细胞生长动力学,生物表面活性剂的生产,以及(A) pH在4.1 - 9.8范围内,(B)葡萄糖浓度在3.0 - 36.9 g/l之间,(C)表面张力和(D)乳化指数之间的影响和相互作用,以最大化生物表面活性剂的生产。采用四因素五水平的中心复合设计(CCD)模型进行分析。优化后的培养基(pH=8,葡萄糖浓度= 38 g/l)使表面张力降低到60 mN/m,产物收率提高到2.7 g/l。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of Bacillus Licheniformis DSM13 for Biosurfactant Production Using Response Surface Methodology
Biosurfactants are surface-active compounds that can reduce surface tension in both aqueous solutions and hydrocarbon mixtures, which in recent times have become more valuable due to their lower toxicity and are generally referred to as green or organic surfactants. Such products are much better than chemical surfactants in terms of their enhanced biodegradation rates and the bioavailability of organic contaminants. Fungi, yeast and bacteria are mainly capable of producing microbial biosurfactants. Bacteria, especially Bacillus, are one of the most frequently applied and studied biosurfactant producers. This study investigated the kinetics of cell growth, the production of biosurfactants as well as the effect of and interactions between the (A) pH within the range of 4.1 to 9.8, (B) glucose concentration between 3.0 and 36.9 g/l, (C) surface tension and (D) emulsification index to maximize biosurfactant production. The analysis was carried out using a central composite design (CCD) model with four factors and five levels. The optimized medium (pH=8 and glucose concentration = 38 g/l) decreased the surface tension to 60 mN/m and increased the product yield up to 2.7 g/l.
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来源期刊
自引率
50.00%
发文量
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审稿时长
6 weeks
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