Enhancement of Candida parapsilosis catalyzing deracemization of (R,S)-1-phenyl-1,2-ethanediol to its (S)-enantiomer by a highly productive " two-in-one" resin-based in situ product removal strategy

Bioresource Technology

Volumn 101, Issue 21, 2010, Pages 8461-8463

  Hu, Qingsen ^a   Xu, Yan ^a   Nie, Yao ^a  

^a JIANGNAN UNIVERSITY   (China)

Author keywords

1 Phenyl 1,2 ethanediol; Adsorbent resin; Candida parapsilosis; In situ substrate feeding and product removal; Microbial deracemization

Indexed keywords

ADSORBENT RESIN; CANDIDA PARAPSILOSIS; DE-RACEMIZATION; ETHANEDIOL; IN SITU SUBSTRATE FEEDING AND PRODUCT REMOVAL; IN-SITU; MICROBIAL DERACEMIZATION;

ADSORPTION; ENANTIOMERS; ETHYLENE GLYCOL; FEEDING; SUBSTRATES; YEAST;

RESINS;

ETHYLENE GLYCOL; RESIN; STYRENE GLYCOL; UNCLASSIFIED DRUG; ETHYLENE GLYCOL DERIVATIVE;

ADSORPTION; CATALYSIS; CHEMICAL COMPOSITION; FUNGUS; MICROBIAL ACTIVITY; REACTION KINETICS;

ARTICLE; CANDIDA PARAPSILOSIS; CATALYSIS; CONCENTRATION (PARAMETERS); ENANTIOMER; IN SITU SUBSTRATE FEEDING AND PRODUCT REMOVAL METHODOLOGY; METHODOLOGY; MICROBIAL STEREOINVERSION; NONHUMAN; ONE POT SYNTHESIS; PRIORITY JOURNAL; RACEMIC MIXTURE; RACEMIZATION; ADSORPTION; BIOCATALYSIS; BIOTECHNOLOGY; CANDIDA; CHEMISTRY; ENZYME SPECIFICITY; METABOLISM; POROSITY; PROCEDURES; STEREOISOMERISM;

ADSORPTION; BIOCATALYSIS; BIOTECHNOLOGY; CANDIDA; ETHYLENE GLYCOLS; POROSITY; RESINS, SYNTHETIC; STEREOISOMERISM; SUBSTRATE SPECIFICITY;

CANDIDA PARAPSILOSIS;

EID: 77954543564     PISSN: 09608524     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.biortech.2010.05.099     Document Type: Article

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