Biomedical Engineering Reference
In-Depth Information
67. Sjoholm, K. H., Cooney, M., and Minteer, S. D. 2009. Effects of degree of deacetylation on
enzyme immobilization in hydrophobically modified chitosan.
Carbohydr Polym
77: 420-424.
68. Spagna, G., Barbagallo, R. N., Casarini, D., and Pifferi, P. G. 2001. A novel chitosan derivative to
immobilize a-l-rhamnopyranosidase from
Aspergillus niger
for application in beverage tech-
nologies.
Enzyme Microb Technol
28: 427-438.
69. Yi, S. S., Noh, J. M., and Lee, Y. S. 2009. Amino acid modified chitosan beads: Improved polymer
supports for immobilization of lipase from
Candida rugosa. J Mol Catal B: Enzyme
57: 123-129.
70. Xiao, Y. and Zhou, X. H. 2008. Synthesis and properties of a novel cross-linked chitosan resin
modified by l-lysine.
React F
u
n
ct
Polym
68: 1281-1289.
71. Zhou, J. Q. and Wang, J. W. 2009. Immobilization of alliinase with a water soluble-insoluble
reversible
N
-succinyl-chitosan for allicin production.
Enzyme Microb Technol
45: 299-304.
72. Monier, M., Wei, Y., Sarhan, A. A., and Ayad, D. M. 2010. Synthesis and characterization of
photo-cross-linkable hydrogel membranes based on modified chitosan.
Polymer
51: 1002-1009.
73. Monier, M., Wei, Y., and Sarhan, A. A. 2010. Evaluation of the potential of polymeric carriers
based on photo-cross-linkable chitosan in the formulation of lipase from
Candida rugosa
immo-
bilization.
J Mol Catal B: Enzyme
63: 93-101.
74. Chellapandian, M. and Krishnan, M. R. V. 1998. Chitosan-poly (glycidyl methacrylate) copoly-
mer for immobilization of urease.
Process Biochem
33: 595-600.
75. Ng, L. T., Guthrie, J. T., Yuan, Y. J., and Zhao, H. J. 2001. UV-cured natural polymer-based mem-
brane for biosensor application.
J Appl Polym Sci
79: 466-472.
76. Bayramoglu, G. and Arica, M. Y. 2010. Reversible immobilization of catalase on fibrous poly-
mer grafted and metal chelated chitosan membrane.
J Mol Catal B: Enzyme
62: 297-304.
77. Monier, M., Wei, Y., Sarhan, A. A., and Ayad, D. M. 2010. Immobilization of horseradish peroxi-
dase on modified chitosan beads.
Int J Biol Macromol
46:324-330.
78. Vazquez-Duhalt, R., Tinoco, R., D'Antonio, P., Topoleski, L. D. T., and Payne, G. F. 2001. Enzyme
conjugation to the polysaccharide chitosan: Smart biocatalysts and biocatalytic hydrogels.
Bioconjug Chem
12: 301-306.
79. Delanoy, G., Li, Q., and Yu, J. 2005. Activity and stability of laccase in conjugation with chitosan.
Int J Biol Macromol
35: 89-95.
80. Gómez, L., Ramírez, H. L., Villalonga, M. L., Hernández, J., and Villalonga, R. 2006.
Immobilization of chitosan-modified invertase on alginate-coated chitin support via polyelec-
trolyte complex formation.
Enzyme Microb Technol
38: 22-27.
81. Gómez, L., Ramíırez, H. L, and Villalonga, R. 2000. Stabilization of invertase by modification of
sugar chains with chitosan.
Biotechnol Lett
22: 347-350.
82. Spagna, G., Barbagallo, R. N., Greco, E., Manenti, I., and Pifferi, P. G. 2002. A mixture of purified
glycosidases from
Aspergillus niger
for oenological application immobilised by inclusion in chi-
tosan gels.
Enzyme Microb Technol
30: 80-89.
83. Ye, P., Xu, Z. K., Che, A. F., Wu, J., and Seta, P. 2005. Chitosan-tethered poly(acrylonitrile-
co
-
maleic acid) hollow fiber membrane for lipase immobilization.
Biomaterials
26: 6394-6403.
84. Ye, P., Jiang, J., and Xu, Z. K. 2007. Adsorption and activity of lipase from
Candida rugosa
on the
chitosan-modified poly(acrylonitrile-
co
-maleic acid) membrane surface.
Colloid Surf B
60: 62-67.
85. Gabrovska, K., Georgieva, A., Godjevargova, T., Stoilova, O., and Manolova, N. 2007.
Poly(acrylonitrile)chitosan composite membranes for urease immobilization.
J Biotechnol
129:
674-680.
86. Gabrovska, K., Nedelcheva, T., Godjevargova, T., Stoilova, O., Manolova, N., and Rashkov, I.
2008. Immobilization of acetylcholinesterase on new modified acrylonitrile copolymer mem-
branes.
J Mol Catal B: Enzyme
55: 169-176.
87. Edwards, W., Leukes, W. D., Rose, P. D., and Burton, S. G. 1999. Immobilization of polyphenol
oxidase on chitosan-coated polysulphone capillary membranes for improved phenolic effluent
bioremediation.
Enzyme Microb Technol
25: 769-773.
88. Darder, M., Aranda, P., Hernáéndez-Vélez, M., Manova, E., and Ruiz-Hitzky, E. 2006.
Encapsulation of enzymes in alumina membranes of controlled pore size.
Thin Solid Films
495:
321-326.
Search WWH ::
Custom Search