메뉴 건너뛰기
Chemical Engineering Journal
Volumn 171, Issue 2, 2011, Pages 669-673
Immobilization of cellulase enzyme on superparamagnetic nanoparticles and determination of its activity and stability
Author keywords

Cellulase; Immobilized enzyme; Ionic bound; Physical adsorption; Superparamagnetic nanoparticles
Indexed keywords

CELLULASE; IMMOBILIZED ENZYME; IONIC BOUND; PHYSICAL ADSORPTION; SUPERPARAMAGNETIC NANOPARTICLES;
EID: 79959359174     PISSN: 13858947     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cej.2011.04.039     Document Type: Article
Times cited : (201)
References (31)
  • 1
    • 0142073274 scopus 로고    scopus 로고
    • Catalytic behaviors of enzymes attached to nanoparticles: the effect of particle mobility
    • Jia H., Guangyu Z., Wang P. Catalytic behaviors of enzymes attached to nanoparticles: the effect of particle mobility. Biotechnol. Bioeng. 2003, 84:407-413.
    • (2003) Biotechnol. Bioeng. , vol.84 , pp. 407-413
    • Jia, H.1    Guangyu, Z.2    Wang, P.3
  • 2
    • 0041528514 scopus 로고    scopus 로고
    • Immobilized enzymes: how to create more suitable biocatalyst
    • Bornscheuer U.T. Immobilized enzymes: how to create more suitable biocatalyst. Angew. Chem. Int. Ed. 2003, 42:3336-3337.
    • (2003) Angew. Chem. Int. Ed. , vol.42 , pp. 3336-3337
    • Bornscheuer, U.T.1
  • 5
    • 70349782241 scopus 로고    scopus 로고
    • Stabilization of multimeric enzymes: strategies to prevent subunit dissociation
    • Fernandez-Lafuente R. Stabilization of multimeric enzymes: strategies to prevent subunit dissociation. Enzyme Microb. Technol. 2009, 45:405-418.
    • (2009) Enzyme Microb. Technol. , vol.45 , pp. 405-418
    • Fernandez-Lafuente, R.1
  • 6
    • 50849139867 scopus 로고    scopus 로고
    • Enzyme stability and stabilization-aqueous and non-aqueous environment
    • Iyer P.V., Ananthanarayan L. Enzyme stability and stabilization-aqueous and non-aqueous environment. Process Biochem. 2008, 43:1019-1032.
    • (2008) Process Biochem. , vol.43 , pp. 1019-1032
    • Iyer, P.V.1    Ananthanarayan, L.2
  • 7
    • 78650818528 scopus 로고    scopus 로고
    • Control of protein immobilization: Coupling immobilization and site-directed mutagenesis to improve biocatalyst or biosensor performance
    • Hernandez K., Fernandez-Lafuente R. Control of protein immobilization: Coupling immobilization and site-directed mutagenesis to improve biocatalyst or biosensor performance. Enzyme Microb. Technol. 2011, 48:107-122.
    • (2011) Enzyme Microb. Technol. , vol.48 , pp. 107-122
    • Hernandez, K.1    Fernandez-Lafuente, R.2
  • 8
    • 27844518415 scopus 로고    scopus 로고
    • Nanostructures for enzyme stabilization
    • Kim J., Grate J.W., Wang P. Nanostructures for enzyme stabilization. Chem. Eng. Sci. 2006, 61:1017-1026.
    • (2006) Chem. Eng. Sci. , vol.61 , pp. 1017-1026
    • Kim, J.1    Grate, J.W.2    Wang, P.3
  • 9
    • 21144448332 scopus 로고    scopus 로고
    • Preparation of biocatalytic nanofibers with high activity and stability via enzyme aggregate coating on polymer nanofibers
    • Kim B.C., Nair S., Kim J., Kwak J.H., Grate J.W., Kim S.H., Gu M.B. Preparation of biocatalytic nanofibers with high activity and stability via enzyme aggregate coating on polymer nanofibers. Nanotechnolgy 2005, 16:S382-S388.
    • (2005) Nanotechnolgy , vol.16
    • Kim, B.C.1    Nair, S.2    Kim, J.3    Kwak, J.H.4    Grate, J.W.5    Kim, S.H.6    Gu, M.B.7
  • 10
    • 0036752497 scopus 로고    scopus 로고
    • Enzyme-carrying polymeric nanofibers prepared via electrospinning for use as unique biocatalysts
    • Jia H.F., Zhu G.Y., Vugrinovich B., Kataphinan W., Reneker D.H., Wang P. Enzyme-carrying polymeric nanofibers prepared via electrospinning for use as unique biocatalysts. Biotechnol. Prog. 2002, 18:1027-1032.
    • (2002) Biotechnol. Prog. , vol.18 , pp. 1027-1032
    • Jia, H.F.1    Zhu, G.Y.2    Vugrinovich, B.3    Kataphinan, W.4    Reneker, D.H.5    Wang, P.6
  • 11
    • 0142073274 scopus 로고    scopus 로고
    • Catalytic behaviors of enzymes attached to nanoparticles: the effect of particle mobility
    • Jia H., Zhu G., Wang P. Catalytic behaviors of enzymes attached to nanoparticles: the effect of particle mobility. Biotechnol. Bioeng. 2003, 84:406-414.
    • (2003) Biotechnol. Bioeng. , vol.84 , pp. 406-414
    • Jia, H.1    Zhu, G.2    Wang, P.3
  • 13
    • 0034757787 scopus 로고    scopus 로고
    • Immobilization of yeast alcohol dehydrogenase on magnetic nanoparticles
    • Liao M.H., Chen: D.H. Immobilization of yeast alcohol dehydrogenase on magnetic nanoparticles. Biotechnol. Lett. 2001, 23:1723-1727.
    • (2001) Biotechnol. Lett. , vol.23 , pp. 1723-1727
    • Liao, M.H.1    Chen, D.H.2
  • 14
    • 0038039289 scopus 로고    scopus 로고
    • Direct binding and characterization of lipase onto magnetic nanoparticles
    • Huang S.H., Liao M.H., Chen D.H. Direct binding and characterization of lipase onto magnetic nanoparticles. Biotechnol. Prog. 2003, 19:1095-1100.
    • (2003) Biotechnol. Prog. , vol.19 , pp. 1095-1100
    • Huang, S.H.1    Liao, M.H.2    Chen, D.H.3
  • 16
    • 0031456784 scopus 로고    scopus 로고
    • Preparation of thermo-sensitive magnetic hydrogen microspheres and application to enzyme immobilization
    • Kondo A., Fukuda H. Preparation of thermo-sensitive magnetic hydrogen microspheres and application to enzyme immobilization. J. Ferment. Bioeng. 1997, 84:337-341.
    • (1997) J. Ferment. Bioeng. , vol.84 , pp. 337-341
    • Kondo, A.1    Fukuda, H.2
  • 17
    • 0035915124 scopus 로고    scopus 로고
    • Nanoparticles, proteins, and Nucleic Acids, Biotechnology meets materials science
    • Niemeyer C.M. Nanoparticles, proteins, and Nucleic Acids, Biotechnology meets materials science. Angew. Chem. Int. Ed. 2001, 4:4128-4148.
    • (2001) Angew. Chem. Int. Ed. , vol.4 , pp. 4128-4148
    • Niemeyer, C.M.1
  • 18
    • 34347222593 scopus 로고    scopus 로고
    • Binding of biological effectors on magnetic nanoparticles measured by a magnetically induced transient birefringence experiment
    • Wilheim C, Gazeau F., Roger J., Pons N., Salis M.F., Perzynski R. Binding of biological effectors on magnetic nanoparticles measured by a magnetically induced transient birefringence experiment. Phys. Rev. E 2002, 65:31404-314049.
    • (2002) Phys. Rev. E , vol.65 , pp. 31404-314049
    • Wilheim, C.1    Gazeau, F.2    Roger, J.3    Pons, N.4    Salis, M.F.5    Perzynski, R.6
  • 22
    • 0344659733 scopus 로고
    • Pretreatment of sawdust and its hydrolysis with immobilised enzymes
    • Kumakura M., Kaetsu I. Pretreatment of sawdust and its hydrolysis with immobilised enzymes. Process Biochem. 1988, 51-54.
    • (1988) Process Biochem. , pp. 51-54
    • Kumakura, M.1    Kaetsu, I.2
  • 24
    • 65249157035 scopus 로고    scopus 로고
    • Coating of soluble and immobilized enzymes with ionic polymers: full stabilization of the quaternary structure of multimeric enzymes
    • Bolivar J.M., Rocha-Martin J., Mateo C., Cava F., Berenguer J., Fernandez-Lafuente R., Guisan J.M. Coating of soluble and immobilized enzymes with ionic polymers: full stabilization of the quaternary structure of multimeric enzymes. Biomacromolecules 2009, 10:742-747.
    • (2009) Biomacromolecules , vol.10 , pp. 742-747
    • Bolivar, J.M.1    Rocha-Martin, J.2    Mateo, C.3    Cava, F.4    Berenguer, J.5    Fernandez-Lafuente, R.6    Guisan, J.M.7
  • 25
    • 34548082044 scopus 로고    scopus 로고
    • Immobilization of cellulase enzyme on non-porous ultrafine silica particles
    • Afsahi B., Kazemi A., Kheirolomoom A., Nejati S. immobilization of cellulase enzyme on non-porous ultrafine silica particles. Scientia Iranica 2007, 14:379-383.
    • (2007) Scientia Iranica , vol.14 , pp. 379-383
    • Afsahi, B.1    Kazemi, A.2    Kheirolomoom, A.3    Nejati, S.4
  • 26
    • 0345369380 scopus 로고    scopus 로고
    • Immobilization of cellulase using acrylamide grafted acrylonitrile copolymer membranes
    • Yuan X.y., Shen N.x., Sheng J., Wei X. Immobilization of cellulase using acrylamide grafted acrylonitrile copolymer membranes. J. Membr. Sci. 1999, 155:101-106.
    • (1999) J. Membr. Sci. , vol.155 , pp. 101-106
    • Yuan, X.1    Shen, N.2    Sheng, J.3    Wei, X.4
  • 27
    • 54549125808 scopus 로고    scopus 로고
    • Facile route to enzyme immobilization: core-shell nanoenzyme particles consisting of well-defined poly (methyl methacrylate) cores and cellulase shells
    • Ho k.M., Mao X., Gu L., Li P. Facile route to enzyme immobilization: core-shell nanoenzyme particles consisting of well-defined poly (methyl methacrylate) cores and cellulase shells. Langmuir 2008, 24:11036-11042.
    • (2008) Langmuir , vol.24 , pp. 11036-11042
    • Ho, K.1    Mao, X.2    Gu, L.3    Li, P.4
  • 28
    • 77957935112 scopus 로고    scopus 로고
    • A comparison of covalent immobilization and physical adsorption of a cellulase enzyme mixture
    • Hirsh S.L., Bilek M.M.M., Nosworthy N.J., Kondyurin A., dos Remedios C.G., McKenzie D.R. A comparison of covalent immobilization and physical adsorption of a cellulase enzyme mixture. Langmuir 2010, 26(17):14380-14388.
    • (2010) Langmuir , vol.26 , Issue.17 , pp. 14380-14388
    • Hirsh, S.L.1    Bilek, M.M.M.2    Nosworthy, N.J.3    Kondyurin, A.4    dos Remedios, C.G.5    McKenzie, D.R.6
  • 29
    • 61549088811 scopus 로고    scopus 로고
    • Hydrolytic activity of free and immobilized cellulase
    • Tebeka I.R.M., Silva A.G.L., Petri D.F.S. Hydrolytic activity of free and immobilized cellulase. Langmuir 2009, 25:1582-1587.
    • (2009) Langmuir , vol.25 , pp. 1582-1587
    • Tebeka, I.R.M.1    Silva, A.G.L.2    Petri, D.F.S.3
  • 30
    • 0028237635 scopus 로고
    • Bioconversions in aqueous two-phase system using enzymes immobilized on ultrafine silica particles
    • Kondo A., Urabe T., Higashitani K. Bioconversions in aqueous two-phase system using enzymes immobilized on ultrafine silica particles. J. Fermant. Bioeng. 1994, 77(6):700-703.
    • (1994) J. Fermant. Bioeng. , vol.77 , Issue.6 , pp. 700-703
    • Kondo, A.1    Urabe, T.2    Higashitani, K.3

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.