Enzymatically and chemically oxidized lignin nanoparticles for biomaterial applications

[Display omitted] •Enzymatically cross-linked LNPs that are stable in organic solvent.•Decolorized LNPs that are stable in aqueous dispersion.•Odourless LNP dispersions for biomaterial applications. Cross-linked and decolorized lignin nanoparticles (LNPs) were prepared enzymatically and chemically f...

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Published inEnzyme and microbial technology Vol. 111; pp. 48 - 56
Main Authors Mattinen, Maija-Liisa, Valle-Delgado, Juan José, Leskinen, Timo, Anttila, Tuomas, Riviere, Guillaume, Sipponen, Mika, Paananen, Arja, Lintinen, Kalle, Kostiainen, Mauri, Österberg, Monika
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.04.2018
Subjects
Ascomycota - enzymology
Biocompatible Materials - chemistry
Biocompatible Materials - metabolism
Chemical oxidation
Colloids
Color
Cross-linking
Cross-Linking Reagents
Decolorization
Fungal Proteins - metabolism
Laccase
Laccase - metabolism
Lignin - chemistry
Lignin - metabolism
Lignin nanoparticle
Nanoparticles - chemistry
Nanoparticles - metabolism
Nanoparticles - ultrastructure
Nanotechnology
Oxidation-Reduction
Stabilization
Trametes - enzymology
Lignin nanoparticle
Decolorization
Cross-linking
Stabilization
Chemical oxidation
Laccase
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Abstract [Display omitted] •Enzymatically cross-linked LNPs that are stable in organic solvent.•Decolorized LNPs that are stable in aqueous dispersion.•Odourless LNP dispersions for biomaterial applications. Cross-linked and decolorized lignin nanoparticles (LNPs) were prepared enzymatically and chemically from softwood Kraft lignin. Colloidal lignin particles (CLPs, ca. 200 nm) in a non-malodorous aqueous dispersion could be dried and redispersed in tetrahydrofuran (THF) or in water retaining their stability i.e. spherical shape and size. Two fungal laccases, Trametes hirsuta (ThL) and Melanocarpus albomyces (MaL) were used in the cross-linking reactions. Reactivity of ThL and MaL on Lignoboost™ lignin and LNPs was confirmed by high performance size exclusion chromatography (HPSEC) and oxygen consumption measurements with simultaneous detection of red-brown color due to the formation of quinones. Zeta potential measurements verified oxidation of LNPs via formation of surface-oriented carboxylic acid groups. Dynamic light scattering (DLS) revealed minor changes in the particle size distributions of LNPs after laccase catalyzed radicalization, indicating preferably covalent intraparticular cross-linking over polymerization. Changes in the surface morphology of laccase treated LNPs were imaged by atomic force (AFM) and transmission emission (TEM) microscopy. Furthermore, decolorization of LNPs without degradation was obtained using ultrasonication with H2O2 in alkaline reaction conditions. The research results have high impact for the utilization of Kraft lignin as nanosized colloidal particles in advanced bionanomaterial applications in medicine, foods and cosmetics including different sectors from chemical industry.
AbstractList Cross-linked and decolorized lignin nanoparticles (LNPs) were prepared enzymatically and chemically from softwood Kraft lignin. Colloidal lignin particles (CLPs, ca. 200 nm) in a non-malodorous aqueous dispersion could be dried and redispersed in tetrahydrofuran (THF) or in water retaining their stability i.e. spherical shape and size. Two fungal laccases, Trametes hirsuta (ThL) and Melanocarpus albomyces (MaL) were used in the cross-linking reactions. Reactivity of ThL and MaL on Lignoboost™ lignin and LNPs was confirmed by high performance size exclusion chromatography (HPSEC) and oxygen consumption measurements with simultaneous detection of red-brown color due to the formation of quinones. Zeta potential measurements verified oxidation of LNPs via formation of surface-oriented carboxylic acid groups. Dynamic light scattering (DLS) revealed minor changes in the particle size distributions of LNPs after laccase catalyzed radicalization, indicating preferably covalent intraparticular cross-linking over polymerization. Changes in the surface morphology of laccase treated LNPs were imaged by atomic force (AFM) and transmission emission (TEM) microscopy. Furthermore, decolorization of LNPs without degradation was obtained using ultrasonication with H2O2 in alkaline reaction conditions. The research results have high impact for the utilization of Kraft lignin as nanosized colloidal particles in advanced bionanomaterial applications in medicine, foods and cosmetics including different sectors from chemical industry.
[Display omitted] •Enzymatically cross-linked LNPs that are stable in organic solvent.•Decolorized LNPs that are stable in aqueous dispersion.•Odourless LNP dispersions for biomaterial applications. Cross-linked and decolorized lignin nanoparticles (LNPs) were prepared enzymatically and chemically from softwood Kraft lignin. Colloidal lignin particles (CLPs, ca. 200 nm) in a non-malodorous aqueous dispersion could be dried and redispersed in tetrahydrofuran (THF) or in water retaining their stability i.e. spherical shape and size. Two fungal laccases, Trametes hirsuta (ThL) and Melanocarpus albomyces (MaL) were used in the cross-linking reactions. Reactivity of ThL and MaL on Lignoboost™ lignin and LNPs was confirmed by high performance size exclusion chromatography (HPSEC) and oxygen consumption measurements with simultaneous detection of red-brown color due to the formation of quinones. Zeta potential measurements verified oxidation of LNPs via formation of surface-oriented carboxylic acid groups. Dynamic light scattering (DLS) revealed minor changes in the particle size distributions of LNPs after laccase catalyzed radicalization, indicating preferably covalent intraparticular cross-linking over polymerization. Changes in the surface morphology of laccase treated LNPs were imaged by atomic force (AFM) and transmission emission (TEM) microscopy. Furthermore, decolorization of LNPs without degradation was obtained using ultrasonication with H2O2 in alkaline reaction conditions. The research results have high impact for the utilization of Kraft lignin as nanosized colloidal particles in advanced bionanomaterial applications in medicine, foods and cosmetics including different sectors from chemical industry.
Cross-linked and decolorized lignin nanoparticles (LNPs) were prepared enzymatically and chemically from softwood Kraft lignin. Colloidal lignin particles (CLPs, ca. 200 nm) in a non-malodorous aqueous dispersion could be dried and redispersed in tetrahydrofuran (THF) or in water retaining their stability i.e. spherical shape and size. Two fungal laccases, Trametes hirsuta (ThL) and Melanocarpus albomyces (MaL) were used in the cross-linking reactions. Reactivity of ThL and MaL on Lignoboost™ lignin and LNPs was confirmed by high performance size exclusion chromatography (HPSEC) and oxygen consumption measurements with simultaneous detection of red-brown color due to the formation of quinones. Zeta potential measurements verified oxidation of LNPs via formation of surface-oriented carboxylic acid groups. Dynamic light scattering (DLS) revealed minor changes in the particle size distributions of LNPs after laccase catalyzed radicalization, indicating preferably covalent intraparticular cross-linking over polymerization. Changes in the surface morphology of laccase treated LNPs were imaged by atomic force (AFM) and transmission emission (TEM) microscopy. Furthermore, decolorization of LNPs without degradation was obtained using ultrasonication with H O in alkaline reaction conditions. The research results have high impact for the utilization of Kraft lignin as nanosized colloidal particles in advanced bionanomaterial applications in medicine, foods and cosmetics including different sectors from chemical industry.
Author Paananen, Arja
Leskinen, Timo
Mattinen, Maija-Liisa
Lintinen, Kalle
Österberg, Monika
Anttila, Tuomas
Valle-Delgado, Juan José
Sipponen, Mika
Kostiainen, Mauri
Riviere, Guillaume
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  surname: Mattinen
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  email: maija-liisa.mattinen@aalto.fi
  organization: Bioproduct Chemistry, Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University, P.O. Box 16300, FI-00076 Aalto, Espoo, Finland
– sequence: 2
  givenname: Juan José
  surname: Valle-Delgado
  fullname: Valle-Delgado, Juan José
  email: juanjose.valledelgado@aalto.fi
  organization: Bioproduct Chemistry, Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University, P.O. Box 16300, FI-00076 Aalto, Espoo, Finland
– sequence: 3
  givenname: Timo
  surname: Leskinen
  fullname: Leskinen, Timo
  email: timo.leskinen@aalto.fi
  organization: Bioproduct Chemistry, Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University, P.O. Box 16300, FI-00076 Aalto, Espoo, Finland
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  givenname: Tuomas
  surname: Anttila
  fullname: Anttila, Tuomas
  email: tuomas.t.anttila@aalto.fi
  organization: Bioproduct Chemistry, Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University, P.O. Box 16300, FI-00076 Aalto, Espoo, Finland
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  givenname: Guillaume
  surname: Riviere
  fullname: Riviere, Guillaume
  email: guillaume.riviere@aalto.fi
  organization: Bioproduct Chemistry, Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University, P.O. Box 16300, FI-00076 Aalto, Espoo, Finland
– sequence: 6
  givenname: Mika
  surname: Sipponen
  fullname: Sipponen, Mika
  email: mika.sipponen@aalto.fi
  organization: Bioproduct Chemistry, Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University, P.O. Box 16300, FI-00076 Aalto, Espoo, Finland
– sequence: 7
  givenname: Arja
  surname: Paananen
  fullname: Paananen, Arja
  email: arja.paananen@vtt.fi
  organization: VTT Technical Research Centre of Finland Ltd, P.O. Box 1000, FI-02044 VTT, Espoo, Finland
– sequence: 8
  givenname: Kalle
  surname: Lintinen
  fullname: Lintinen, Kalle
  email: kalle.lintinen@aalto.fi
  organization: Biohybrid Materials, Department of Bioproducts and Biosystems, School of Chemical Technology, Aalto University, P.O. Box 16100, FI-00076 Aalto, Espoo, Finland
– sequence: 9
  givenname: Mauri
  surname: Kostiainen
  fullname: Kostiainen, Mauri
  email: mauri.kostiainen@aalto.fi
  organization: Biohybrid Materials, Department of Bioproducts and Biosystems, School of Chemical Technology, Aalto University, P.O. Box 16100, FI-00076 Aalto, Espoo, Finland
– sequence: 10
  givenname: Monika
  surname: Österberg
  fullname: Österberg, Monika
  email: maija-liisa.mattinen@aalto.fi
  organization: Bioproduct Chemistry, Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University, P.O. Box 16300, FI-00076 Aalto, Espoo, Finland
BackLink https://www.ncbi.nlm.nih.gov/pubmed/29421036$$D View this record in MEDLINE/PubMed
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Keywords Lignin nanoparticle
Decolorization
Cross-linking
Stabilization
Chemical oxidation
Laccase
Language English
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Snippet [Display omitted] •Enzymatically cross-linked LNPs that are stable in organic solvent.•Decolorized LNPs that are stable in aqueous dispersion.•Odourless LNP...
Cross-linked and decolorized lignin nanoparticles (LNPs) were prepared enzymatically and chemically from softwood Kraft lignin. Colloidal lignin particles...
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SubjectTerms Ascomycota - enzymology
Biocompatible Materials - chemistry
Biocompatible Materials - metabolism
Chemical oxidation
Colloids
Color
Cross-linking
Cross-Linking Reagents
Decolorization
Fungal Proteins - metabolism
Laccase
Laccase - metabolism
Lignin - chemistry
Lignin - metabolism
Lignin nanoparticle
Nanoparticles - chemistry
Nanoparticles - metabolism
Nanoparticles - ultrastructure
Nanotechnology
Oxidation-Reduction
Stabilization
Trametes - enzymology
Title Enzymatically and chemically oxidized lignin nanoparticles for biomaterial applications
URI https://dx.doi.org/10.1016/j.enzmictec.2018.01.005
https://www.ncbi.nlm.nih.gov/pubmed/29421036
https://search.proquest.com/docview/2001066971
Volume 111
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