脂肪酶产生菌Candida rugosa产酶条件研究

脂肪酶(Lipase,EC3.1.1.3)是用来催化酯类化合物的分解、合成和酯交换的特殊酶,具有高度的化学选择性和立体异构性,它广泛应用于食品、轻纺、皮革、香料、化妆品、洗涤剂、有机合成、医药等领域.本世纪80年代,美国科学家发现酶在近无水的有机溶剂中不仅能保存其催化活力,而且还获得许多新的催化特征[1],此后,脂肪酶在非水相酶催化领域的研究和应用逐渐增多.     

粗壮假丝酵母(Candida valida 20231)产脂肪酶发酵条件的研究

对粗壮假丝酵母(Candida valida 20231)产脂肪酶所需的培养基成分和发酵条件进行了优化。结果表明,粗壮假丝酵母在接种后3 h即进入对数期,18 h后转入稳定期,66 h后进入衰退期;发酵36 h达到最大酶活,至72 h仍然无明显下降趋势。最适合的培养基成分为:4.0%大豆粉,2.0%菜籽油,0.3%葡萄糖,0.3%NH_4NO_3,1.2%K_2HPO_4,0.42%NaH_2PO_4,0.4%MgSO_4·7H_2O。使用优化的培养基,最佳产酶的条件为:装液量80 mL(250 mL摇瓶),初始pH 6,接种量为2.0%,种子菌龄为12 h。在最佳产酶条件下,脂肪酶活力达到32.6 U/mL。     

荧光假单孢菌Pseudomonas fluorescence 5963 产脂肪酶条件的优化

对荧光假单孢菌Pseudomonas fluorescence 5963产脂肪酶条件进行了筛选.该菌株的最适产酶条件如下(w/v)1%淀粉作为碳源;2%酵母抽提物作为氮源;0.03%Mg2SO4·7H2O;0.2%诱导物,水1 L;pH 7.0;培养温度为28℃.     

假丝酵母菌GXU08产脂肪酶发酵条件的优化

以假丝酵母菌GXU08产脂肪酶催化合成麝香类香料—环十五内酯目前已备受关注,在一定条件下,环十五内酯的转化率与脂肪酶的水解酶活有直接关系,酶活越高其催化合成环十五内酯的能力越强。通过单因素试验和正交试验,对假丝酵母菌GXU08产脂肪酶的发酵条件进行优化。结果表明:最佳发酵培养基配方为蔗糖0.5%,淀粉0.5%,蛋白胨1.5%,K_2HPO_40.05%,MgSO_40.15%,(NH_4)_2SO_41%,茶油1.5%,菜籽油1.5%,pH=8,此培养基在28℃,180 r/min的条件下发酵培养48h,脂肪酶水解活力达到27.53 U/mL,是初始发酵培养基条件下所得脂肪酶酶活的3.74倍;其环十五内酯的转化率为16.6%,是优化前的4倍。     

毕赤酵母展示表达南极假丝酵母脂肪酶B

将南极假丝脂肪酶B(CALB)基因N端和C端,分别与酿酒酵母絮凝蛋白(Flo1p)絮凝结构域序列的N端(FS)和C端(FL)融合,构建成脂肪酶毕赤酵母表面展示载体KFS和KFL,并转化毕赤酵母GS115后获得重组子KFS-CALB和KFL-CALB。免疫荧光检测证实脂肪酶已展示于毕赤酵母细胞表面。甲醇诱导120 h后展示酶活性分别达到286 U/g干细胞和182 U/g干细胞。酶的热稳定性较游离酶有较大提高,50℃孵育4 h后KFS-CALB菌株的残留酶活力仍保持初始酶活力70%以上;KFL-CALB在50℃孵育2 h后的酶活力也达到初始酶活力50%,远远高于游离态的CALB,其在50℃孵育0.5 h后仅残留18%的初始酶活力。     

聚氨酯泡沫固定产脂肪酶粗状假丝酵母(Candida valida T2)细胞的研究

对聚氨酯泡沫固定产脂肪酶粗状假丝酵母(Candida valida T2)细胞的固定化条件进行了研究.实验结果表明,聚氨酯泡沫颗粒经密度和粒径筛选,酸碱处理,以及固液比优化,载体固定细胞干质量比达到1571 mg/g,细胞脂肪酶的酶活为每克干细胞1415 U.电镜图片显示粗状假丝酵母菌(Candida valida T2)在载体孔隙内和脊壁上缠绕充盈,生长良好,固定结构稳定.固定化细胞连续催化水解桐籽油5批次,细胞相对水解酶活保持率达73%,固定细胞的损失率为12.5%.固定化细胞颗粒显示出良好的操作稳定性和酶活保持率,为进一步的应用研究提供了实验基础.     

南极假丝酵母脂肪酶B基因在大肠杆菌中的表达和发酵优化

旨在利用大肠杆菌实现南极假丝酵母脂肪酶B(CALB)基因的高效可溶性表达,并降低生产成本.构建带有不同信号肽的CALB基因表达质粒,转化至不同大肠杆菌宿主中,在摇瓶中进行基础培养基、诱导条件、培养基组成成分和进程曲线的优化.结果显示,带有PelB信号肽的重组菌pET25b-CALB-1/Rosetta(DE3)在20℃...     

D301树脂固定化假丝酵母脂肪酶

本研究选择7种吸附和离子交换树脂进行了假丝酵母脂肪酶(Candida sp.lipase)的固定化试验,通过测定固定化后各脂肪酶的酶活,筛选出固定化效果较好的弱碱性阴离子交换树脂D301;并通过扫描电镜将D301与脂肪酶Novozym 435的表面形貌做比较,进一步选定D301树脂作为载体,并对其采用戊二醛交联固定化,研究并优化了其固定化条件。结果表明,5%戊二醛溶液的加入量为8mL,处理时间为5h,酶液浓度为1.0g/L,磷酸缓冲盐溶液pH6.0,固定化处理10h效果最好,获得的固定化酶活力可达35U/mg,酶的固定化效率约为3.5U/(mg·h)。     

产脂肪酶菌株筛选及柠檬酸杆菌产酶条件优化

脂肪酶可以催化甘油三酯水解成脂肪酸和甘油,已广泛应用在工业领域,而获得产酶微生物是研究的基础。采用油脂平板法筛选出1株脂肪酶产生菌。经16S rRNA序列分析可知,该菌株属于柠檬酸杆菌(Citrobacter werkman and Gillen)。单因素试验对其进行产酶条件优化,优化后产酶条件（g/L）：淀粉2.0,KH₂PO₄ 1.0,K₂HPO₄·3H₂O 2.2,(NH₄)₂SO₄ 1.0,MgSO₄·7H₂O 0.1,牛肉膏2.0,橄榄油10.0 mL,pH 7.5,接种量1.5%(v/v),37 ℃培养43 h。获得最大酶活为384 U/mL,是优化前的13倍。可以利用该菌制备脂肪酶。     

Evaluation of Medium Components by Plackett-Burman Statistical Design for Lipase Production by Candida rugosa and Kinetic Modeling

Lipase production by Candida rugosa was carried out in submerged fermentation. Plackett-Burman statistical experimental design was applied to evaluate the fermentation medium components. The effect of twelve medium components was studied in sixteen experimental trials. Glucose, olive oil, peptone and FeCl3?6H2O were found to have more significance on lipase production by Candida rugosa. Maximum lipase activity of 3.8 u mL-1 was obtained at 50 h of fermentation period. The fermentation was carried out at optimized temperature of 30oC, initial pH of 6.8 and shaking speed of 120 r/min. Unstructured kinetic models were used to simulate the experimental data. Logistic model, Luedeking-Piret model and modified Luedeking-Piret model were found suitable to efficiently predict the cell mass, lipase production and glucose consumption respectively with high determination coefficient(R2). From the estimated values of the Luedeking-Piret kinetic model parameters, α and β, it was found that the lipase production by Candida rugosa is growth associated.     

Evaluation of Medium Components by Plackett-Burman Statistical Design for Lipase Production by Candida rugosa and Kinetic Modeling

Lipase production by Candida rugosa was carried out in submerged fermentation. Plackett-Burman statistical experimental design was applied to evaluate the fermentation medium components. The effect of twelve medium components was studied in sixteen experimental trials. Glucose, olive oil, peptone and FeCl3?6H2O were found to have more significance on lipase production by Candida rugosa. Maximum lipase activity of 3.8 u mL-1 was obtained at 50 h of fermentation period. The fermentation was carried out at optimized temperature of 30oC, initial pH of 6.8 and shaking speed of 120 r/min. Unstructured kinetic models were used to simulate the experimental data. Logistic model, Luedeking-Piret model and modified Luedeking-Piret model were found suitable to efficiently predict the cell mass, lipase production and glucose consumption respectively with high determination coefficient(R2). From the estimated values of the Luedeking-Piret kinetic model parameters, α and β, it was found that the lipase production by Candida rugosa is growth associated.     

交联酶晶体制备及其稳定性的研究

酶制剂已经广泛应用在化学工艺、医学、农业、食品工业和化学分析等各个领域中,但酶的明显弱点是稳定性差,特别是应用于有机合成的酶还要耐受有机溶剂的变性作用等,所以酶的稳定化研究越来越引起重视。脂肪酶由于其在疏水环境的特殊催化作用,被广泛应用于有机合成中。...     

Structured modeling and state estimation in a fermentation process: Lipase production by Candida rugosa

A simple structured mathematical model coupled with a methodology of state and parameter estimation is developed for lipase production by Candida rugosa in batch fermentation. The model describes the system according to the following qualitative observations and hypothesis: Lipase production is induced by extracellular oleic acid present in the medium. The acid is transported into the cell where it is consumed, transformed, and stored. Lipase is excreted to the medium where it is distributed between the available oil-water interphase and aqueous phase. Cell growth is modulated by the intracellular substrate concentration. Model parameters have been determined and the whole model validated against experiments not used in their determination. The estimation problem consists in the estimation of three state variables (biomass, intra- and extracellular substrate) and two kinetic parameters by using only the on-line measurement provided by exhaust gas analysis. The presented estimation strategy divides the complex problem into three subproblems that can be solved by stable algorithms. The estimation of biomass (X) and the specific growth rate (mu), is achieved by a recursive prediction error algorithm using the on-line measurement of the carbon dioxide evolution rate. mu is then used to perform an estimation of intracellular substrate and the other kinetic parameter related to substrate transport (A) by an adaptive observer. Extracellular substrate is then evaluated by means of the estimated values of intracellular substrate and biomass through the material balance of the reactor. Simulation and experimental tests showed good performance of the developed estimator, which appears suitable to be used for process control and monitoring. (c) 1995 John Wiley & Sons, Inc.     

On the Prediction of the Enantioselectivity of Candida rugosa Lipase by Comparative Molecular Field Analysis

Comparative molecular field analysis (CoMFA) was used to derive a quantitative substrate model for the enzymatic resolution of norbornanol esters by the lipase of Candida rugosa. Within these calculations, the steric and electrostatic interactions of both enantiomers and the differences in the corresponding two fields were used for the correlation of the substrate structure with the enantioselectivity of the hydrolysis. Different alignments of the molecules were used to improve the model.     

Effect of different carbon sources on lipase production by Candida rugosa

Different carbon sources affecting growth and lipase production in Candida rugosa were studied by using batch cultures on defined medium. Carbohydrates and acids non-related to fats did not induce lipase production. The highest yields of enzyme were obtained with lipids or fatty acids as carbon sources. Tween 80 stimulated lipase biosynthesis and secretion outside the cell. Combinations of two types of substrates, carbohydrates and fatty acids, did not improve lipase production, and in some cases, their consumption was produced in a sequential pattern. Glucose presented a repressing effect on lipase production. Moreover, glucose was found to be effective in stimulating lipase secretion by cells with a high level of cell-bound lipase activity because of their previous growth in oleic acid.     

Kinetic Resolution of Profens by Enantioselective Esterification Catalyzed by Candida antarctica and Candida rugosa Lipases

Profens (2‐arylpropionic acids) are known as one of the major nonsteroidal antiinflammatory drugs (NSAIDs) used in the treatment of inflammation associated with tissue injury. The inflammatory activity of profens is mainly due to their (S)‐enantiomer, whereas they are commercially available not only as pure enantiomers, but as racemates as well. There are several methods widely used in order to obtain enantiomerically pure compounds, however, the kinetic resolution with the application of lipases as biocatalysts may have an added advantage in the production of optically pure active pharmaceutical ingredients, such as milder reaction conditions, reduced energy requirements, and production costs. The aim of this study was to compare the results described in the literature in the case of the influence of reaction medium, alcohol moiety, and reaction temperature on the catalytic activity of lipases from Candida antarctica and Candida rugosa. Chirality 26:663–669, 2014. © 2014 Wiley Periodicals, Inc.     

The Effect of Substrate Hydrophobicity on the Kinetic Behaviour of Immobilized Candida rugosa Lipase

Candida rugosa lipase (EC 3.1.1.3.) was immobilized in a hydrophilic polyurethane foam and used in the hydrolysis of olive oil, in H-hexane. The results obtained were compared with those from a previous study, in which the same lipase preparation was used in the esterification of ethanol with butyric acid.

The initial rate of hydrolysis increased exponentially with increasing olive oil concentration. In contrast, for the esterification reaction, Michaelis-Menten kinetics with inhibition by both substrates, had been observed.

The effect of medium viscosity, stirring conditions and size of immobilization particles could not explain the observed kinetics of the hydrolytic reaction. However, a direct relationship was observed between the log P values of the reaction medium and the initial rate of hydrolysis, i.e., activation of the immobilized Candida rugosa lipase appears to be promoted by a high hydrophobicity of the reaction medium.

In the case of the esterification reaction, no similar correlation was found.     

Immobilization of Candida rugosa lipase on colloidal gas aphrons (CGAs)

A novel technique for immobilization of Candida rugosa lipase onto anionic colloidal gas aphrons (CGAs) is described. CGAs are spherical microbubbles (10-100 microm) composed of an inner gas core surrounded by a surfactant shell. In this initial study, greater than 80% lipase (w/w) was effectively retained on the CGAs. Leakage of protein from the CGAs and the activity of the adsorbed lipase decreased with increasing enzyme loading; this indicates that multilayers of lipase may be adsorbing onto the CGAs. The CGA-immobilised lipase displayed normal Michaelis-Menten dependence on substrate concentration and also exhibited greater activity than the free enzyme.