铜绿假单胞菌中鼠李糖脂生物合成的研究进展*

鼠李糖脂因其具有环境友好和卓越的物理化学特性,而有望成为化学合成表面活性剂的替代物。近年来鼠李糖脂得到了广泛的研究,其目的是利用低价的可再生资源进行大规模生产,但目前的研究成果仍不足以选育出更具商业竞争力的鼠李糖脂过量合成菌株。为此,进一步理解鼠李糖脂生物合成的复杂基因调控网络,探索降低生产成本的发酵工艺势在必行。综述了铜绿假单胞菌中鼠李糖脂的生物合成途径、群体感应对主要基因的调控、鼠李糖脂在生物膜形成中所发挥的作用,以及发酵优化对鼠李糖脂产量的影响。有助于加深对鼠李糖脂生物合成的认识,为提高鼠李糖脂产量提供重要参考信息。     

Glycolipids of Pseudomonas and Rhodococcus oil-degrading bacteria used in bioremediation preparations: Formation and structure

We studied formation and structural features of biosurfactants produced by five oil-degrading Pseudomonas and Rhodococcus strains. These bacteria were found to be capable of intense formation of extracellular glycolipid biosurfactants when grown on mineral salts medium with 2% hexadecane. Under these conditions, the surface tension of the cultures decreased from 77 mN/m to 31–34 mN/m. The strain Rhodococcus sp. S26 forming up to 780 mg glycolipids/l of culture medium proved the most efficient biosurfactant producer. Extracellular glycolipids were purified from the crude extracts by column chromatography. Their structural features were determined by thin layer chromatography and electrospray ionization mass spectrometry. Strains Pseudomonas putida BS3701 and Pseudomonas fluorescens 142NF synthesized a number of glycolipids identified as rhamnolipid B and its homologues. Glycolipids produced by Rhodococcus sp. X5 and Rhodococcus sp. S26 were assigned to trehalose tetraesters.     

Folding of outer membrane protein A in the anionic biosurfactant rhamnolipid

Folding and stability of bacterial outer membrane proteins (OMPs) are typically studied in vitro using model systems such as phospholipid vesicles or surfactant. OMP folding requires surfactant concentrations above the critical micelle concentration (cmc) and usually only occurs in neutral or zwitterionic surfactants, but not in anionic or cationic surfactants. Various Gram-negative bacteria produce the anionic biosurfactant rhamnolipid. Here we show that the OMP OmpA can be folded in rhamnolipid at concentrations above the cmc, though the thermal stability is reduced compared to the non-ionic surfactant dodecyl maltoside. We discuss implications for possible interactions between OMPs and biosurfactants in vivo.     

表面张力曲线法测定生物表面活性剂的浓度

介绍一种利用表面张力曲线测定生物表面活性剂发酵液浓度的方法,通过测定不同浓度鼠李糖脂标准溶液的表面张力,制作浓度和表面张力的x-y散点图,再根据希斯科夫斯基经验公式利用Origin软件做x-y散点图的拟合曲线,得到该公式的相关参数,然后利用该经验公式,通过测定稀释后待测发酵液的表面张力,可求得原发酵液的鼠李糖脂浓度。和常用的方法相比,该方法具有快速、简单、准确和测定成本低的优点。     

Enhanced crude oil biodegradability of <Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis> ZJU after preservation in crude oil-containing medium

This study investigated the enhanced crude oil biodegradability of Pseudomonas aeruginosa ZJU, a strain isolated from the Shengli oil field (Shandong Province, China), after preservation in a crude oil-containing medium. This strain previously could not emulsify crude oil during preservation, but after switching to a subculture in a glycerol medium for passages, it expressed increased biodegradation of crude oil within the first six passages and this biodegradation sharply decreased after the seventh passage. It is noticed that about 70% of crude oil was degraded by Pseudomonas aeruginosa ZJU in the third passage while this biodegradability was less than 19% in the seventh passage. Similar to the trend on biodegradation of crude oil, rhamnolipid production increased during the first six passages and later sharply decreased. Thus, it seems that biodegradability was proportionally related to the rhamnolipid productivity in each passage in glycerol medium. Interestingly, both rhamnolipid production and crude oil biodegradation were maintained if this strain was continuously preserved in crude oil and could be retrieved if this strain was then re-preserved in crude oil-containing medium for seven days after the significant decline in these two characteristics previously observed in the seventh passage.     

鼠李糖脂快速定量分析方法及其影响因素研究

为探寻简单、快速的由铜绿假单胞菌生产鼠李糖脂的定量分析方法,对比分析了葸酮—硫酸法、L-半胱氨酸-硫酸法、苯酚硫酸法及其影响因素。结果显示,蒽酮硫酸法优于其它两种方法,并得出了其最佳测试条件。发酵液中剩余的葡萄糖、上清液对鼠李糖脂定量分析的影响可以忽略,菌体和中层杂质对鼠李糖脂的定量分析有一定程度的影响。因而,分析时要去除菌体。而中层杂质对定量分析的影响可以通过制备含中层杂质的鼠李糖溶液标准曲线而消除。     

Analysis of rhamnolipid biosurfactants by methylene blue complexation

Rhamnolipids, produced by Pseudomonas aeruginosa, represent an important group of biosurfactants having various industrial, environmental, and medical applications. Current methods for rhamnolipid quantification involve the use of strong hazardous acids/chemicals, indirect measurement of the concentration of sugar moiety, or require the availability of expensive equipment (HPLC-MS). A safer, easier method that measures the whole rhamnolipid molecules would significantly enhance strain selection, metabolic engineering, and process development for economical rhamnolipid production. A semi-quantitative method was reported earlier to differentiate between the rhamnolipid-producing and non-producing strains using agar plates containing methylene blue and cetyl trimethylammonium bromide (CTAB). In this study, a rapid and simple method for rhamnolipid analysis was developed by systematically investigating the complexation of rhamnolipids and methylene blue, with and without the presence of CTAB. The method relies on measuring the absorbance (at 638 nm) of the rhamnolipid−methylene blue complex that partitions into the chloroform phase. With P. aeruginosa fermentation samples, the applicability of this method was verified by comparison of the analysis results with those obtained from the commonly used anthrone reaction technique.     

铜绿假单胞菌中鼠李糖脂生物合成的研究进展*

鼠李糖脂因其具有环境友好和卓越的物理化学特性,而有望成为化学合成表面活性剂的替代物。近年来鼠李糖脂得到了广泛的研究,其目的是利用低价的可再生资源进行大规模生产,但目前的研究成果仍不足以选育出更具商业竞争力的鼠李糖脂过量合成菌株。为此,进一步理解鼠李糖脂生物合成的复杂基因调控网络,探索降低生产成本的发酵工艺势在必行。综述了铜绿假单胞菌中鼠李糖脂的生物合成途径、群体感应对主要基因的调控、鼠李糖脂在生物膜形成中所发挥的作用,以及发酵优化对鼠李糖脂产量的影响。有助于加深对鼠李糖脂生物合成的认识,为提高鼠李糖脂产量提供重要参考信息。     

Acid phosphatase interactions with organo-mineral complexes: influence on catalytic activity

The influence of montmorillonite intercalated with representatives of three major classes of biological molecules-lysine (amino acid), –glucose (carbohydrate) and rhamnolipid (lipid) on the catalytic activity of acid phosphatase was investigated. In comparison to pure clay, the presence of the organic intercalates preserves residual activity at extreme pH values of 3 and 11 and temperatures as low as 10°C. Thermodynamic parameters of free energy, enthalpy and entropy, suggest that catalytic activity on the lysine and rhamnolipid intercalated surfaces is more spontaneous and favorable than that of pure clay. Michaelis-constants (K _m values) and maximum reaction velocities (V _max values) were determined and confirmed the enhancement of activity on the organo-mineral surfaces. The catalytic reaction product was measured as a function of time and the data fitted to equations describing the behavior of first and second order rates of reaction. All processes apart from the glucose-intercalated clay (second order) could be described by first order reactions. Catalytic activity was generally less on the glucose-mineral surface compared to the other organo-mineral surfaces and the pure clay. However, when all surfaces were saturated with acid phosphatase the glucose complex exhibited the highest level of catalytic activity.     

Optimization of Nutrient Requirements and Culture Conditions for the Production of Rhamnolipid from Pseudomonas aeruginosa (MTCC 7815) using Mesua ferrea Seed Oil

Environmental awareness has led to a serious consideration for biological surfactants and hence non-edible vegetable oils may serve as a substitute carbon source for bio-surfactant production (rhamnolipid) which might be an alternative to complex synthetic surfactants. There are reports of rhamnolipid production from plant based oil giving higher production than that of glucose because of their hydrophobicity and high carbon content. Therefore the contribution of non-edible oil such as Mesua ferrea seed oil could serve as a good carbon source for rhamnolipid production. Moreover the use of rhamnolipid production from non-edible plant based seed oil has not been reported elsewhere. The present work focus on the optimal production of rhamnolipid by considering both micro and macro nutrients and culture conditions using response surface methodology. The study observes that micronutrients play a significant role in rhamnolipid production from Pseudomonas aeruginosa (MTCC 7815). The investigation results with the statistically optimize parameters able to produce a higher rhamnolipid production and this methodology could be used to optimize the nutrients requirements and culture conditions. The present findings would assist in bioremediation of crude oil contaminated ecosystems.