Laccase-catalysed polymeric dye synthesis from plant-derived phenols for potential application in hair dyeing: Enzymatic colourations driven by homo- or hetero-polymer synthesis

Summary Laccase efficiently catalyses polymerization of phenolic compounds. However, knowledge on applications of polymers synthesized in this manner remains scarce. Here, the potential of laccase‐catalysed polymerization of natural phenols to form products useful in hair dyeing was investigated. Al...

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Bibliographic Details
Published in:Microbial biotechnology 2010-05, Vol.3 (3), p.324-335
Main Authors: Jeon, Jong-Rok, Kim, Eun-Ju, Murugesan, Kumarasamy, Park, Hyo-Keun, Kim, Young-Mo, Kwon, Jung-Hee, Kim, Wang-Gi, Lee, Ji-Yeon, Chang, Yoon-Seok
Format: Article
Language:English
Subjects:
Acids
Catechin
Catechin - metabolism
Catechol
Catechols - metabolism
Cellulose
Chemical synthesis
Chromatography, Liquid
Color
Coumaric Acids - metabolism
Dyeing
Dyes
Enzyme kinetics
Ferulic acid
Flavonoids
Gallic acid
Gallic Acid - analogs & derivatives
Gallic Acid - metabolism
Hair
Hair Dyes - metabolism
Humans
Ionization
Keratin
Laccase
Laccase - metabolism
Lignin
Liquid chromatography
Mass spectrometry
Mass spectroscopy
Materials selection
Monomers
Phenolic compounds
Phenols
Phenols - isolation & purification
Phenols - metabolism
Pigments
Plants - chemistry
Polymerization
Polymers
Polymers - metabolism
Regression analysis
Spectrometry, Mass, Electrospray Ionization
Statistical analysis
Tandem Mass Spectrometry
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Summary:Summary Laccase efficiently catalyses polymerization of phenolic compounds. However, knowledge on applications of polymers synthesized in this manner remains scarce. Here, the potential of laccase‐catalysed polymerization of natural phenols to form products useful in hair dyeing was investigated. All 15 tested phenols yielded coloured products after laccase treatment and colour diversity was attained by using mixtures of two phenolic monomers. After exploring colour differentiation pattern of 120 different reactions with statistical regression analysis, three monomer combinations, namely gallic acid and syringic acid, catechin and catechol, and ferulic acid and syringic acid, giving rise to brown, black, and red materials, respectively, were further characterized because such colours are commercially important for grey hair dyeing. Selected polymers could strongly absorb visible light and their hydrodynamic sizes ranged from 100 to 400 nm. Analyses of enzyme kinetic constants, liquid chromatography and electrospray ionization‐mass spectrometry (ESI‐MS) coupled with collision‐induced dissociation MS/MS indicate that both monomers in reactions involving catechin and catechol, and ferulic acid and syringic acid, are coloured by heteropolymer synthesis, but the gallic acid/syringic acid combination is based on homopolymer mixture formation. Comparison of colour parameters from these three reactions with those of corresponding artificial homopolymer mixtures also supported the idea that laccase may catalyse either hetero‐ or homo‐polymer synthesis. We finally used selected materials to dye grey hair. Each material coloured hair appropriately and the dyeing showed excellent resistance to conventional shampooing. Our study indicates that laccase‐catalysed polymerization of natural phenols is applicable to the development of new cosmetic pigments.
ISSN:1751-7915
1751-7915
DOI:10.1111/j.1751-7915.2009.00153.x