Application of immobilized enzyme technologies for the textile industry: a review

Abstract A number of enzymes have applications in the textile sector, as several natural fibres (e.g. cotton, wool and flax) can be subjected to processing using such natural biocatalysts. In the latest two decades, demand for industrial enzymes has increased considerably; however, the textile indus...

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Published inBiocatalysis and biotransformation Vol. 29; no. 6; pp. 223 - 237
Main Authors Soares, José C., Moreira, Patrícia R., Queiroga, A. Catarina, Morgado, José, Malcata, F. Xavier, Pintado, Manuela E.
Format Journal Article
LanguageEnglish
Published Informa Healthcare 01.12.2011
Taylor & Francis
Subjects
Cotton
dye
effluent treatment
enzyme immobilization
textile
wool
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Abstract Abstract A number of enzymes have applications in the textile sector, as several natural fibres (e.g. cotton, wool and flax) can be subjected to processing using such natural biocatalysts. In the latest two decades, demand for industrial enzymes has increased considerably; however, the textile industry requires highly stable enzymes, and good performance at extreme values of pH and temperature. New strategies are continuously emerging for the immobilization of enzymes with superior efficiency and usage. Enzymatic immobilization can stabilize enzymes and extend their useful life. Additionally, reduction in effluent treatment costs and improvement of efficiency is possible. This paper briefly reviews the most recent research efforts pertaining to immobilization of enzymes with potential application in the textile industry.
AbstractList Abstract A number of enzymes have applications in the textile sector, as several natural fibres (e.g. cotton, wool and flax) can be subjected to processing using such natural biocatalysts. In the latest two decades, demand for industrial enzymes has increased considerably; however, the textile industry requires highly stable enzymes, and good performance at extreme values of pH and temperature. New strategies are continuously emerging for the immobilization of enzymes with superior efficiency and usage. Enzymatic immobilization can stabilize enzymes and extend their useful life. Additionally, reduction in effluent treatment costs and improvement of efficiency is possible. This paper briefly reviews the most recent research efforts pertaining to immobilization of enzymes with potential application in the textile industry.
Abstract A number of enzymes have applications in the textile sector, as several natural fibres (e.g. cotton, wool and flax) can be subjected to processing using such natural biocatalysts. In the latest two decades, demand for industrial enzymes has increased considerably; however, the textile industry requires highly stable enzymes, and good performance at extreme values of pH and temperature. New strategies are continuously emerging for the immobilization of enzymes with superior efficiency and usage. Enzymatic immobilization can stabilize enzymes and extend their useful life. Additionally, reduction in effluent treatment costs and improvement of efficiency is possible. This paper briefly reviews the most recent research efforts pertaining to immobilization of enzymes with potential application in the textile industry.
A number of enzymes have applications in the textile sector, as several natural fibres (e.g. cotton, wool and flax) can be subjected to processing using such natural biocatalysts. In the latest two decades, demand for industrial enzymes has increased considerably; however, the textile industry requires highly stable enzymes, and good performance at extreme values of pH and temperature. New strategies are continuously emerging for the immobilization of enzymes with superior efficiency and usage. Enzymatic immobilization can stabilize enzymes and extend their useful life. Additionally, reduction in effluent treatment costs and improvement of efficiency is possible. This paper briefly reviews the most recent research efforts pertaining to immobilization of enzymes with potential application in the textile industry.
Author Queiroga, A. Catarina
Malcata, F. Xavier
Morgado, José
Moreira, Patrícia R.
Pintado, Manuela E.
Soares, José C.
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  surname: Soares
  fullname: Soares, José C.
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  organization: CBQF/Escola Superior de Biotecnologia, Universidade Católica Portuguesa, Rua Dr. António Bernardino de Almeida
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  givenname: Patrícia R.
  surname: Moreira
  fullname: Moreira, Patrícia R.
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  givenname: A. Catarina
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  fullname: Queiroga, A. Catarina
  email: mmpintado@esb.ucp.pt, mmpintado@esb.ucp.pt
  organization: CBQF/Escola Superior de Biotecnologia, Universidade Católica Portuguesa, Rua Dr. António Bernardino de Almeida
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  organization: CITEVE - Centro Tecnológico das Indústrias Têxtil e do Vestuário de Portugal, Quinta da Maia - Rua Fernando Mesquita
– sequence: 5
  givenname: F. Xavier
  surname: Malcata
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  organization: ISMAI - Instituto Superior da Maia, Avenida Carlos Oliveira Campos
– sequence: 6
  givenname: Manuela E.
  surname: Pintado
  fullname: Pintado, Manuela E.
  email: mmpintado@esb.ucp.pt, mmpintado@esb.ucp.pt
  organization: CBQF/Escola Superior de Biotecnologia, Universidade Católica Portuguesa, Rua Dr. António Bernardino de Almeida
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Snippet Abstract A number of enzymes have applications in the textile sector, as several natural fibres (e.g. cotton, wool and flax) can be subjected to processing...
A number of enzymes have applications in the textile sector, as several natural fibres (e.g. cotton, wool and flax) can be subjected to processing using such...
Abstract A number of enzymes have applications in the textile sector, as several natural fibres (e.g. cotton, wool and flax) can be subjected to processing...
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SubjectTerms Cotton
dye
effluent treatment
enzyme immobilization
textile
wool
Title Application of immobilized enzyme technologies for the textile industry: a review
URI https://www.tandfonline.com/doi/abs/10.3109/10242422.2011.635301
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