Enhanced stability and reusability of marine epoxide hydrolase using ship-in-a-bottle approach with magnetically-separable mesoporous silica

Journal of Molecular Catalysis B: Enzymatic

Volumn 89, Issue , 2013, Pages 48-51

  Kim, Young Hyun ^a   Lee, Inseon ^b   Choi, Sung Hee ^a   Lee, Ok Kyung ^a   Shim, Jongmin ^c   Lee, Jinwoo ^c   Kim, Jungbae ^b   Lee, Eun Yeol ^a  

^a Kyung Hee University   (South Korea)

^b Korea University   (South Korea)

^c Pohang University of Science and Technology (POSTECH)   (South Korea)

Author keywords

Enzyme immobilization; Epoxide hydrolase; Mesoporous silica; Mugil cephalus; Nanoscale enzyme reactor

Indexed keywords

BATCH RESOLUTIONS; ENANTIOPURE; ENANTIOSELECTIVE HYDROLYSIS; ENHANCED STABILITY; ENZYME REACTORS; EPOXIDE HYDROLASES; HIGHLY LOADED; INITIAL ACTIVITY; MAGNETIC NANO-PARTICLES; MESO-PORES; MESOPOROUS SILICA; MUGIL CEPHALUS; STYRENE OXIDE;

ENZYME IMMOBILIZATION; LEACHING; REUSABILITY; SHIPS; STYRENE;

BOTTLES;

EPOXIDE HYDROLASE; MAGNETIC NANOPARTICLE; SILICON DIOXIDE; STYRENE OXIDE;

ABSORPTION; ARTICLE; BIOCATALYST; ENANTIOSELECTIVITY; ENZYME ACTIVITY; ENZYME IMMOBILIZATION; ENZYME STABILITY; HYDROLYSIS; LEACHING; MUGIL CEPHALUS; NONHUMAN; PROTEIN CROSS LINKING; PROTEIN EXPRESSION; RACEMIC MIXTURE;

MUGIL CEPHALUS;

EID: 84873045563     PISSN: 13811177     EISSN: 18733158     Source Type: Journal    
DOI: 10.1016/j.molcatb.2012.12.012     Document Type: Article

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