Microemulsion-based organogels as matrices for lipase immobilization

Organogels based on water-in-oil microemulsions can be formed using various natural polymers such as gelatin, agar or cellulose derivatives. Enzymes entrapped in the water core of the microemulsion can keep their activity and enhance their stability within the gel matrix. The importance of the micro...

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Published in	Biotechnology advances Vol. 28; no. 3; pp. 395 - 406
Main Authors	Zoumpanioti, Maria, Stamatis, Haralambos, Xenakis, Aristotelis
Format	Journal Article
Language	English
Published	Kidlington Elsevier Inc 01.05.2010 Elsevier
Subjects	Adsorption Biocatalysis Bioconversions. Hemisynthesis Biological and medical sciences Biotechnology Derivatives Emulsions - chemistry Enantioselectivity Enzyme Activation Enzyme Stability Enzymes Enzymes, Immobilized - chemistry Esterifications Fundamental and applied biological sciences. Psychology Gelatin Gels - chemistry General aspects Hydroxy propyl methyl cellulose Immobilization Immobilization techniques Lipase Lipase - chemistry Mathematical analysis Matrices Matrix methods Methods. Procedures. Technologies Microemulsions Organic Chemicals - chemistry Protein Binding Biocatalysis Enantioselectivity Lipase Esterifications Gelatin Hydroxy propyl methyl cellulose Enzyme Cellulose Immobilization Triacylglycerol lipase Esterases Esterification Carboxylic ester hydrolases Hydrolases
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Abstract	Organogels based on water-in-oil microemulsions can be formed using various natural polymers such as gelatin, agar or cellulose derivatives. Enzymes entrapped in the water core of the microemulsion can keep their activity and enhance their stability within the gel matrix. The importance of the microemulsion based organogels (MBGs) leans on their numerous potential biotechnological applications. An important example is the use of various lipase microemulsion systems for hydrolytic or synthetic reactions. In this review, several MBGs are being evaluated as immobilization matrices for various enzymes. The main subject focuses on the parameters that affect the use of MBGs as media for bioorganic reactions using lipases as catalysts.
AbstractList	Organogels based on water-in-oil microemulsions can be formed using various natural polymers such as gelatin, agar or cellulose derivatives. Enzymes entrapped in the water core of the microemulsion can keep their activity and enhance their stability within the gel matrix. The importance of the microemulsion based organogels (MBGs) leans on their numerous potential biotechnological applications. An important example is the use of various lipase microemulsion systems for hydrolytic or synthetic reactions. In this review, several MBGs are being evaluated as immobilization matrices for various enzymes. The main subject focuses on the parameters that affect the use of MBGs as media for bioorganic reactions using lipases as catalysts.Organogels based on water-in-oil microemulsions can be formed using various natural polymers such as gelatin, agar or cellulose derivatives. Enzymes entrapped in the water core of the microemulsion can keep their activity and enhance their stability within the gel matrix. The importance of the microemulsion based organogels (MBGs) leans on their numerous potential biotechnological applications. An important example is the use of various lipase microemulsion systems for hydrolytic or synthetic reactions. In this review, several MBGs are being evaluated as immobilization matrices for various enzymes. The main subject focuses on the parameters that affect the use of MBGs as media for bioorganic reactions using lipases as catalysts. Organogels based on water-in-oil microemulsions can be formed using various natural polymers such as gelatin, agar or cellulose derivatives. Enzymes entrapped in the water core of the microemulsion can keep their activity and enhance their stability within the gel matrix. The importance of the microemulsion based organogels (MBGs) leans on their numerous potential biotechnological applications. An important example is the use of various lipase microemulsion systems for hydrolytic or synthetic reactions. In this review, several MBGs are being evaluated as immobilization matrices for various enzymes. The main subject focuses on the parameters that affect the use of MBGs as media for bioorganic reactions using lipases as catalysts.
Author	Stamatis, Haralambos Zoumpanioti, Maria Xenakis, Aristotelis
Author_xml	– sequence: 1 givenname: Maria surname: Zoumpanioti fullname: Zoumpanioti, Maria organization: Institute of Biological Research and Biotechnology, National Hellenic Research Foundation, 48, Vas. Constantinou Ave 11635, Athens, Greece – sequence: 2 givenname: Haralambos surname: Stamatis fullname: Stamatis, Haralambos email: hstamati@cc.uoi.gr organization: Biological Applications and Technologies Department, University of Ioannina, 45110 Ioannina, Greece – sequence: 3 givenname: Aristotelis surname: Xenakis fullname: Xenakis, Aristotelis email: arisx@eie.gr organization: Institute of Biological Research and Biotechnology, National Hellenic Research Foundation, 48, Vas. Constantinou Ave 11635, Athens, Greece
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Keywords	Biocatalysis Enantioselectivity Lipase Esterifications Gelatin Hydroxy propyl methyl cellulose Enzyme Cellulose Immobilization Triacylglycerol lipase Esterases Esterification Carboxylic ester hydrolases Hydrolases
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Chem. doi: 10.1021/j100167a050
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Snippet	Organogels based on water-in-oil microemulsions can be formed using various natural polymers such as gelatin, agar or cellulose derivatives. Enzymes entrapped...
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SubjectTerms	Adsorption Biocatalysis Bioconversions. Hemisynthesis Biological and medical sciences Biotechnology Derivatives Emulsions - chemistry Enantioselectivity Enzyme Activation Enzyme Stability Enzymes Enzymes, Immobilized - chemistry Esterifications Fundamental and applied biological sciences. Psychology Gelatin Gels - chemistry General aspects Hydroxy propyl methyl cellulose Immobilization Immobilization techniques Lipase Lipase - chemistry Mathematical analysis Matrices Matrix methods Methods. Procedures. Technologies Microemulsions Organic Chemicals - chemistry Protein Binding
Title	Microemulsion-based organogels as matrices for lipase immobilization
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