TY - JOUR
T1 - Property control of enzyme coatings on polymer nanofibers by varying the conjugation site concentration
AU - Lee, Sang Mok
AU - Nair, Sujith
AU - Ahn, Hye Kyung
AU - Kim, Beom Soo
AU - Jun, Seung Hyun
AU - An, Hyo Jin
AU - Hsiao, Erik
AU - Kim, Seong H.
AU - Koo, Yoon Mo
AU - Kim, Jungbae
N1 - Funding Information:
Portions of this work were supported by grants from the National Research Foundation (NRF) funded by the Korean Ministry of Education, Science & Technology (MEST) (No. 2009-0082314 , No. 2009-0059861 , and No. 2009-0075638), and by the Seoul R&BD Program ( 10920 ). This work was also supported by the Engineering Research Center for Advanced Bioseparation Technology, Korea Science and Engineering Foundation (KOSEF).
PY - 2010/10
Y1 - 2010/10
N2 - Trypsin was coated onto electrospun polystyrene-poly(styrene-co-maleic anhydride) (PS-PSMA) nanofibers with varied concentrations of maleic anhydride group, which enables an easy conjugation of enzymes onto PS-PSMA nanofibers. The concentration of maleic anhydride group, determined by the amount of PSMA in the mixture of PS and PSMA for electrospinning, correlated well with the enzyme loading and activity of covalently attached trypsin. Trypsin-coated nanofibers, prepared via covalent attachment of seed enzyme molecules and follow-up enzyme cross-linking, resulted in highly stable nanobiocatalytic systems, irrespective of added PSMA amounts. The variation of PSMA amounts enables the facile control of various properties of trypsin-coated nanofibers, such as enzyme loading, activity, structure, and mass transfer limitation. Especially, the mass transfer limitation of substrate through the enzyme coating matrix correlated well with the conjugation site concentration, and this feature would be useful in optimizing the enzyme coatings for the biocatalytic conversion of large-size substrates, such as protein digestion as an example. Facile property control of highly stable enzyme coatings would provide a powerful tool for more successful applications of enzyme coatings in various fields.
AB - Trypsin was coated onto electrospun polystyrene-poly(styrene-co-maleic anhydride) (PS-PSMA) nanofibers with varied concentrations of maleic anhydride group, which enables an easy conjugation of enzymes onto PS-PSMA nanofibers. The concentration of maleic anhydride group, determined by the amount of PSMA in the mixture of PS and PSMA for electrospinning, correlated well with the enzyme loading and activity of covalently attached trypsin. Trypsin-coated nanofibers, prepared via covalent attachment of seed enzyme molecules and follow-up enzyme cross-linking, resulted in highly stable nanobiocatalytic systems, irrespective of added PSMA amounts. The variation of PSMA amounts enables the facile control of various properties of trypsin-coated nanofibers, such as enzyme loading, activity, structure, and mass transfer limitation. Especially, the mass transfer limitation of substrate through the enzyme coating matrix correlated well with the conjugation site concentration, and this feature would be useful in optimizing the enzyme coatings for the biocatalytic conversion of large-size substrates, such as protein digestion as an example. Facile property control of highly stable enzyme coatings would provide a powerful tool for more successful applications of enzyme coatings in various fields.
KW - Conjugation site concentration
KW - Covalent enzyme attachment
KW - Electrospun polymer nanofibers
KW - Enzyme coatings
KW - Mass transfer limitation
KW - Trypsin
UR - http://www.scopus.com/inward/record.url?scp=77955980450&partnerID=8YFLogxK
U2 - 10.1016/j.enzmictec.2010.07.011
DO - 10.1016/j.enzmictec.2010.07.011
M3 - Article
AN - SCOPUS:77955980450
SN - 0141-0229
VL - 47
SP - 216
EP - 221
JO - Enzyme and Microbial Technology
JF - Enzyme and Microbial Technology
IS - 5
ER -