Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology

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...

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Main Authors: Kamariah, Long,, Norlelawati, Arifin,, Koh, Soo-Peng,, Oi-Ming, Lai, Chin-Ping, Tan, Mohd Suria Affandi, Yusoff,
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Language:English
Published: Springer 2015
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spelling my.usim-83122015-12-30T03:36:28Z Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology Kamariah, Long, Norlelawati, Arifin, Koh, Soo-Peng, Oi-Ming, Lai Chin-Ping, Tan Mohd Suria Affandi, Yusoff, MLCT Yield Residual FFA Esterification Medium- And Long-Chain Triacyglycerols (MLCT) Medium- And Long-Chain Triacyglycerols (MLCT) Response Surface Methodology (RSM) Reaction Time Enzyme Load Fatty Acids/Glycerol Molar Ratio 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 (R (2) = 0.9507) and residual FFA (R (2) = 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 > 0.05) differences between the observed and predicted values of both models. Refined MLCT fat blend had sufficient solid fat at room temperature and made it suitable to use as a hard stock in shortening and margarine production. 2015-06-10T07:50:55Z 2015-06-10T07:50:55Z 2012 Article 1935-5130 en Springer
institution Universiti Sains Islam Malaysia
building USIM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universit Sains Islam i Malaysia
content_source USIM Institutional Repository
url_provider http://ddms.usim.edu.my/
language English
topic MLCT Yield
Residual FFA
Esterification
Medium- And Long-Chain Triacyglycerols (MLCT)
Medium- And Long-Chain Triacyglycerols (MLCT)
Response Surface Methodology (RSM)
Reaction Time
Enzyme Load
Fatty Acids/Glycerol Molar Ratio
spellingShingle MLCT Yield
Residual FFA
Esterification
Medium- And Long-Chain Triacyglycerols (MLCT)
Medium- And Long-Chain Triacyglycerols (MLCT)
Response Surface Methodology (RSM)
Reaction Time
Enzyme Load
Fatty Acids/Glycerol Molar Ratio
Kamariah, Long,
Norlelawati, Arifin,
Koh, Soo-Peng,
Oi-Ming, Lai
Chin-Ping, Tan
Mohd Suria Affandi, Yusoff,
Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology
description 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 (R (2) = 0.9507) and residual FFA (R (2) = 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 > 0.05) differences between the observed and predicted values of both models. Refined MLCT fat blend had sufficient solid fat at room temperature and made it suitable to use as a hard stock in shortening and margarine production.
format Article
author Kamariah, Long,
Norlelawati, Arifin,
Koh, Soo-Peng,
Oi-Ming, Lai
Chin-Ping, Tan
Mohd Suria Affandi, Yusoff,
author_facet Kamariah, Long,
Norlelawati, Arifin,
Koh, Soo-Peng,
Oi-Ming, Lai
Chin-Ping, Tan
Mohd Suria Affandi, Yusoff,
author_sort Kamariah, Long,
title Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology
title_short Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology
title_full Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology
title_fullStr Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology
title_full_unstemmed Modeling and Optimization of Lipozyme RM IM-Catalyzed Esterification of Medium- and Long-Chain Triacyglycerols (MLCT) Using Response Surface Methodology
title_sort modeling and optimization of lipozyme rm im-catalyzed esterification of medium- and long-chain triacyglycerols (mlct) using response surface methodology
publisher Springer
publishDate 2015
_version_ 1645152390953828352
score 13.222552