Biomedical Engineering Reference
In-Depth Information
2. Krajewska, B. 2004. Application of chitin-and chitosan-based materials for enzyme immobiliza-
tions: A review.
Enzyme Microb Technol
35: 126-139.
3. Bommarius, A. S. and Riebel, B. R. 2004.
Biocatalysis: Fundamentals and Applications
. Wiley-VCH:
Germany, p. 611.
4. Cao, L. Q. 2005. Immobilised enzymes: Science or art?
Curr Opin Chem Biol
9: 217-226.
5. Brady, D. and Jordaan, J. 2009. Advances in enzyme immobilization.
Biotechnol Lett
31:
1639-1650.
6. Mateo, C., Palomo, J. M., Fernandez-Lorente, G., Guisan, J. M., and Fernandez-Lafuente, R.
2007. Improvement of enzyme activity, stability and selectivity via immobilization techniques.
Enzyme Microb Technol
40: 1451-1463.
7. Langen, V., L. M., Selassa, R. P., Rantwijk, F. V., and Sheldon, R. A. 2005. Cross-linked aggre-
gates of (R)-oxynitrilase: A stable, recyclable biocatalyst for enantioselective hydrocyanation.
Org Lett
7: 327-329.
8. Illanes, A., Wilson, L., Caballero, E., Fernández-Lafuente, R., and Guisán, J. M. 2006. Cross-linked
penicillin acylase aggregates for synthesis of beta-lactam antibiotics in organic medium.
Appl
Biochem Biotechnol
133: 189-202.
9. Prabhavathi Devi, B. L. A., Guo, Z., and Xu, X. B. 2009. Characterization of cross-linked lipase
aggregates.
J Am Oil Chem Soc
86: 637-642.
10. Kim, J., Grate, J. W., and Wang, P. 2006. Nanostructures for enzyme stabilization.
Chem Eng Sci
61: 1017-1026.
11. Ge, J., Lu, D. N., Liu, Z. X., and Liu, Z. 2009. Recent advances in nanostructured biocatalysts.
Biochem Eng J
44: 53-59.
12. Jia, H., Zhu, G., and Wang, P. 2003. Catalytic behaviors of enzymes attached to nanoparticles:
The effect of particle mobility.
Biotechnol Bioeng
84: 406-414.
13. Wang, Z. G., Wan, L. S., Liu, Z. M., Huang, X. J., and Xu, Z. K. 2009. Enzyme immobilization on
electrospun polymer nanofibers: An overview.
J Mol Catal B: Enzyme
56: 189-195.
14. Wang, J. 2005. Carbon-Nanotube Based Electrochemical Biosensors: A Review.
Electroanal
17:
7-14.
15. Avnir, D., Braun, S., Lev, O., and Ottolenghi, M. 1994. Enzymes and other proteins entrapped in
sol-gel materials.
Chem Mater
6: 1605-1614.
16. Miao, Y. and Tan, S. N. 2001. Amperometric hydrogen peroxide biosensor with silica sol-gel/
chitosan film as immobilization matrix.
Analytica Chimica Acta
437: 87-93.
17. Ye, P., Xu, Z. K., Wu, J., Innocentd, C., and Seta, P. 2006. Nanofibrous poly(acrylonitrile-
co
-
maleic acid) membranes functionalized with gelatin and chitosan for lipase immobilization.
Biomaterials
27: 4169-4176.
18. Chern, J. T. and Chao, Y. P. 2005. Chitin-binding domain based immobilization of d-hydantoinase.
J Biotechnol
117: 267-275.
19. Chiang, C. J., Wang, J. Y., Chen, P. T., and Chao, Y. P. 2009. Enhanced levan production using
chitin-binding domain fused levansucrase immobilized on chitin beads.
Appl Microbiol
Biotechnol
82: 445-451.
20. Spagna, G., Andreani, F., Salatelli, E., Romagnoli, D., and Pifferi, P. G. 1998. Immobilization of
α-l-arabinofuranosidase on chitin and chitosan.
Process Biochem
33: 57-62.
21. Rodrigues, D. S., Mendes, A. A., Adriano, W. S., Gonçalves L. R. B., and Giordano, R. L. C. 2008.
Multipoint covalent immobilization of microbial lipase on chitosan and agarose activated by
different methods.
J Mol Catal B: Enzyme
51: 100-109.
22. Hung, T. C., Giridhar, R., Chiou, S. H., and Wu, W. T. 2003. Binary immobilization of
Candida
rugosa
lipase on chitosan.
J Mol Catal B: Enzyme
26: 69-78.
23. Adriano, W. S., Mendonça, D. B., Rodrigues, D. S., Mammarella, E. J., and Giordano, R. L. C. 2008.
Improving the properties of chitosan as support for the covalent multipoint immobilization of
chymotrypsin.
Biomacromolecules
9: 2170-2179.
24. Shi, X. W., Yang, X., Gaskell, K. J., Liu, Y., Kobatake, E., Bentley, W. E., and Payne, G. F. 2009
Reagentless protein assembly triggered by localized electrical signals.
Adv Mater
21: 984-988.
Search WWH ::
Custom Search