Maximization of bioconversion of castor oil into ricinoleic acid by response surface methodology

Goswami D; Sen R; Basu JK; De S

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Maximization of bioconversion of castor oil into ricinoleic acid by response surface methodology

机译：通过响应面法最大化蓖麻油生物转化为蓖麻油酸

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In this study, response surface methodology was applied to optimize process variables like temperature, pH, enzyme concentration (mg/g oil), and buffer concentration (g/g oil) for hydrolysis of castor oil using Candida rugosa lipase. A 2(4) full factorial central composite design was used to develop the quadratic model that was subsequently optimized and the optimal conditions were as follows: temperature 40 degrees C, pH 7.72, enzyme concentration 5.28 mg/g oil, buffer concentration I g/g oil and there was 65.5% conversion in 6 h. These predicted optimal conditions agreed well with the experimental results. This is the first report on the application of response surface methodology in castor oil hydrolysis using C. rugosa lipase with higher percentage conversion in 6 h.

机译：在这项研究中，应用响应表面方法来优化工艺变量，例如温度，pH，酶浓度（mg / g油）和缓冲液浓度（g / g油），用于使用皱纹假丝酵母脂肪酶水解蓖麻油。使用2（4）全因子中央复合设计来开发二次模型，随后对其进行优化，其最佳条件如下：温度40摄氏度，pH 7.72，酶浓度5.28 mg / g油，缓冲液浓度I g /克油，在6小时内转化率为65.5％。这些预测的最佳条件与实验结果非常吻合。这是关于响应面方法在使用皱纹脂肪酶进行6小时较高转化率的蓖麻油水解中应用的首次报道。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2009年第18期|共7页
作者
Goswami D; Sen R; Basu JK; De S;
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正文语种 eng
中图分类生物科学;
关键词
Castor oil; Candida rugosa lipase; Ricinoleic acid; Hydrolysis; Response surface methodology;

机译：蓖麻油;皱纹念珠菌脂肪酶;蓖麻油酸;水解;响应面法;

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1. Maximization of bioconversion of castor oil into ricinoleic acid by response surface methodology [J] . Goswami D, Sen R, Basu JK, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2009,第18期

机译：通过响应面法最大化蓖麻油生物转化为蓖麻油酸
2. Response surface methodology for eicosanoic acid triboproperties in castor oil [J] . C. V. Ossia, H. G. Han, H. Kong Tribology International . 2009,第1期

机译：蓖麻油中二十烷酸摩擦性能的响应面方法
3. Bioconversion of sunflower oil, rapeseed oil and ricinoleic acid byCandida tropicalis M25 [J] . Fabritius D., Schafer HJ., Steinbuchel A. Applied Microbiology and Biotechnology . 1998,第5期

机译：热带念珠菌M25对向日葵油，菜籽油和蓖麻油酸的生物转化
4. Effect of the inclusion of ricinoleic acid from castor oil (Ricinus communis L.) in equine diet based on Bermuda grass hay: glycemic and insulinemic response [C] . P.C.Nunes Gil, R. Francoso, T.N. Centini, European Workshop on Equine Nutrition . 2012

机译：基于百慕大草鹤的蓖麻油（Ricinus Communis L.）中蓖麻油（Ricinus Communis L.）的效果：血糖和胰岛素反应
5. Simulation-based robust revenue maximization of coal mines using Response Surface Methodology. [D] . Nageshwaraniyergopalakrishnan, Saisrinivas. 2014

机译：基于响应面方法的基于仿真的煤矿稳健收益最大化。
6. Castor oil induces laxation and uterus contraction via ricinoleic acid activating prostaglandin EP3 receptors [O] . Sorin Tunaru, Till F. Althoff, Rolf M. Nüsing, 2012

机译：蓖麻油通过蓖麻油酸激活前列腺素EP3受体诱导松弛和子宫收缩
7. On the Separation of Ricinoleic Acid from the Mixed Fatty Acids of Castor Oil. [O] . Kinjiro Inokuchi 1925

机译：蓖麻油混合脂肪酸分离蓖麻油酸。

Maximization of bioconversion of castor oil into ricinoleic acid by response surface methodology

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