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Volumn 10, Issue 4, 2010, Pages 353-358
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Nano-encapsulation of lipase by self-assembled nanogels: Induction of high enzyme activity and thermal stabilization
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Author keywords
Artificial molecular chaperone; Lipase; Nanogel; Nanotechnology; Self assembly
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Indexed keywords
ENZYME ACTIVITY;
ENZYMES;
SELF ASSEMBLY;
STABILIZATION;
THERMODYNAMIC STABILITY;
THERMOGRAVIMETRIC ANALYSIS;
ARTIFICIAL MOLECULAR CHAPERONE;
DENATURATION TEMPERATURES;
MOLECULAR CHAPERONES;
NANO-ENCAPSULATION;
NANOGEL;
NANOGELS;
PSEUDOMONAS CEPACIA;
PULLULANS;
SELF-ASSEMBLED;
SELF-ASSEMBLED NANOGELS;
THERMAL STABILITY;
THERMAL STABILIZATION;
NANOSTRUCTURED MATERIALS;
CHOLESTEROL BEARING PULLULAN;
PULLULAN;
SELF ASSEMBLED MONOLAYER;
TRIACYLGLYCEROL LIPASE;
UNCLASSIFIED DRUG;
CHOLESTEROL;
DRUG CARRIER;
GLUCAN;
HYDROGEL;
NANOSPHERE;
ARTICLE;
BURKHOLDERIA CEPACIA;
COMPLEX FORMATION;
DENATURATION;
ENZYME ACTIVITY;
FREEZE DRYING;
NANOENCAPSULATION;
NONHUMAN;
THERMOSTABILITY;
ANALOGS AND DERIVATIVES;
BIOCATALYSIS;
CHEMISTRY;
CIRCULAR DICHROISM;
ENZYME STABILITY;
ENZYMOLOGY;
GEL CHROMATOGRAPHY;
HEAT;
HYDROGEL;
KINETICS;
METABOLISM;
PARTICLE SIZE;
PROTEIN CONFORMATION;
PROTEIN DENATURATION;
BURKHOLDERIA CEPACIA;
CHANDIPURA VIRUS;
BIOCATALYSIS;
BURKHOLDERIA CEPACIA;
CHOLESTEROL;
CHROMATOGRAPHY, GEL;
CIRCULAR DICHROISM;
DRUG CARRIERS;
ENZYME STABILITY;
FREEZE DRYING;
GLUCANS;
HOT TEMPERATURE;
HYDROGELS;
KINETICS;
LIPASE;
NANOSPHERES;
PARTICLE SIZE;
PROTEIN CONFORMATION;
PROTEIN DENATURATION;
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EID: 77950914419
PISSN: 16165187
EISSN: 16165195
Source Type: Journal
DOI: 10.1002/mabi.200900304 Document Type: Article |
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Times cited : (63)
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References (29)
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