Modeling and optimization of lipozyme RM IM-catalyzed esterification of medium- and long-chain triacyglycerols (MLCT) using response surface methodology.

Norlelawati Arifin; Koh SooPeng; Kamariah Long; Tan ChinPing; Mohd. Suria A. Y.; Lai OiMing

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Modeling and optimization of lipozyme RM IM-catalyzed esterification of medium- and long-chain triacyglycerols (MLCT) using response surface methodology.

机译：建模和优化脂酶RM IM催化的中，长链甘油三酯（MLCT）的酯化反应表面方法。

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Optimization conditions of Lipozyme RM IM lipase esterification of capric and stearic acids with glycerol for the production of medium- and long-chain triacyglycerols (MLCT) fat suitable for food applications such as margarine and shortening were investigated. Response surface methodology (RSM) was applied to model and optimize the reaction conditions, namely, the reaction time (8-24 h), enzyme load (5-15 wt.%), and fatty acids/glycerol ratio (3:1-4:1) and represented by Ti, En, and Sb, respectively. Best-fitting models were successfully established for both MLCT yield (R2=0.9507) and residual FFA (R2=0.9315) established by multiple regressions with backward elimination. Optimal reaction conditions were 13.6-14.0 h for reaction time, 7.9-8.0 wt.% for enzyme load, and 3:1 for fatty acids/glycerol molar ratio. Chi-square test showed that there were no significant (P

机译：研究了用于生产中链和长链甘油三酸酯（MLCT）脂肪的，适用于人造黄油和起酥油等食品的Lipozyme RM IM脂肪酶用甘油酯化癸酸和硬脂酸的最佳条件。应用响应面方法（RSM）来建模和优化反应条件，即反应时间（8-24 h），酶负载（5-15 wt。％）和脂肪酸/甘油比（3：1- 4：1），分别由Ti，En和Sb表示。成功建立了MLCT产量（ R 2 = 0.9507）和剩余FFA（ R 2 = 0.9315），通过向后消除的多重回归建立。最佳反应条件为反应时间为13.6-14.0 h，酶负载为7.9-8.0 wt。％，脂肪酸/甘油摩尔比为3：1。卡方检验表明，两个模型的观察值与预测值之间均无显着差异（ P

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《Food and bioprocess technology》 |2012年第1期|共10页
作者
Norlelawati Arifin; Koh SooPeng; Kamariah Long; Tan ChinPing; Mohd. Suria A. Y.; Lai OiMing;
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正文语种 eng
中图分类食品工业;
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Esterification; Medium- and long-chain triacyglycerols (MLCT); Response surface methodology (RSM); Reaction time; Enzyme load; Fatty acids/glycerol molar ratio; MLCT yield; Residual FFA;

机译：酯化;中链和长链甘油三酸酯（MLCT）;响应表面法（RSM）;反应时间;酶负荷;脂肪酸/甘油摩尔比;MLCT收率;残留FFA;

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1. Modeling and optimization of lipozyme RM IM-catalyzed esterification of medium- and long-chain triacyglycerols (MLCT) using response surface methodology. [J] . Norlelawati Arifin, Koh SooPeng, Kamariah Long, Food and bioprocess technology . 2012,第1期

机译：建模和优化脂酶RM IM催化的中，长链甘油三酯（MLCT）的酯化反应表面方法。
2. Enzymatic synthesis of medium- and long-chain triacylglycerols (MLCT): optimization of process parameters using response surface methodology. [J] . Koh S. P., Tan C. P., Lai O. M., Food and bioprocess technology . 2010,第2期

机译：中链和长链三酰基甘油（MLCT）的酶促合成：使用响应面方法优化工艺参数。
3. Enzymatic Synthesis of Medium- and Long-Chain Triacylglycerols (MLCT): Optimization of Process Parameters Using Response Surface Methodology [J] . S. P. Koh, C. P. Tan, O. M. Lai, Food and Bioprocess Technology . 2010,第2期

机译：酶法合成中链和长链三酰基甘油（MLCT）：使用响应面方法优化工艺参数
4. Enzymatic Preparation of Medium-and Long-chain Triglycerides (MLCT)in Solvent Free System: Screening of Lipases and Optimization using Response Surface Methodology [C] . Yang Kaizhou, Bi Yanlan, Sun Shangde, 14th ICC cereal and bread congress and forum on fats amp; oils : Science and technology innovation for healthy cereals amp; oils : book of abstracts . 2012

机译：无溶剂体系中酶和中链甘油三酸酯（MLCT）的酶法制备：脂肪酶的筛选和响应面方法的优化
5. Necessary conditions for optimization of multiple response functions and a new multiple response surface methodology. [D] . Osborne, Deborah Marie. 1997

机译：优化多重响应函数和新的多重响应面方法的必要条件。
6. Palm-based medium-and-long-chain triacylglycerol (P-MLCT): production via enzymatic interesterification and optimization using response surface methodology (RSM) [O] . Yee-Ying Lee, Teck-Kim Tang, Eng-Tong Phuah, 2015

机译：棕榈基中长链甘油三酯（P-MLCT）：通过酶促酯交换生产并使用响应表面方法（RSM）进行优化
7. Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology [O] . Norlelawati Arifin, Koh Soo-Peng, Kamariah Long, 2010

机译：使用响应表面方法的脂酶RM IM催化酯化脂酶和长链三酰基甘油（MLCT）的建模与优化

Modeling and optimization of lipozyme RM IM-catalyzed esterification of medium- and long-chain triacyglycerols (MLCT) using response surface methodology.

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