Laccase-mediated oxidation of small organics: Bifunctional roles for versatile applications

Trends in Biotechnology

Volumn 31, Issue 6, 2013, Pages 335-341

  Jeon, Jong Rok ^a,b   Chang, Yoon Seok ^b  

^a LG Chemical Ltd   (South Korea)

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

Author keywords

In vivo metabolism; Laccase mediator system; Laccases; Oxidative coupling

Indexed keywords

BIOLOGICAL FUNCTIONS; BIOTECHNOLOGICAL APPLICATIONS; IN-VIVO; LACCASE-MEDIATOR SYSTEM; LACCASES; ORGANIC SYNTHESIS; OXIDATIVE COUPLINGS; SINGLE ELECTRON OXIDATION;

BIOREMEDIATION; BIOTECHNOLOGY; METABOLISM; OXIDATION;

ENZYMES;

ALDEHYDE; CATECHIN; CATECHOL; COUMARIC ACID; FERULIC ACID; GALLIC ACID; LACCASE; PHENOL; RESVERATROL; RUTOSIDE; SYRINGIC ACID;

BIOTECHNOLOGY; CATABOLISM; CHEMICAL STRUCTURE; IN VIVO STUDY; METABOLISM; NONHUMAN; OXIDATION; PRIORITY JOURNAL; REVIEW;

BIOTECHNOLOGY; LACCASE; ORGANIC CHEMICALS; OXIDATION-REDUCTION;

EID: 84878125481     PISSN: 01677799     EISSN: 18793096     Source Type: Journal    
DOI: 10.1016/j.tibtech.2013.04.002     Document Type: Review

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