Page 92 - Advances in Textile Biotechnology
P. 92
Smart materials containing enzymes or enzyme substrates 71
jus, s., kokol, v., & guebitz, g. m. 2009, ‘Tyrosinase-catalysed coating of wool fi bres
with different protein-based biomaterials’, Journal of Biomaterials Science,
Polymer Edition, 20, 253–269.
kandelbauer, a., maute, o., kessler, r., erlacher, a., & gübitz, g. m. 2004, ‘Study
on dye decolorization in an immobilized laccase enzyme-reactor using on-line
spectroscopy’, Biotechnology and Bioengineering, 87(4), 552–563.
kim, c. j. & lee, p. i. 1992. ‘Hydrophobic anionic gel beads for swelling-controlled
drug delivery’. Pharmaceutical Research, 9, 195–199.
kim, c. k., im, e. b., lim, s. j., oh, y. k., & han, s. k. 1994, ‘Development of glucose-
triggered pH-sensitive liposomes for a potential insulin delivery’, International
Journal of Pharmaceutics, 101(3), 191–197.
kim, j., kosto, t. j., manimala, j. c., nauman, e. b., & dordick, j. s. 2001b, ‘Preparation
of enzyme-in-polymer composites with high activity and stability’, AIChE Journal,
47(1), 240–244.
kim, y. d., dordick, j. s., & clark, d. s. 2001a, ‘Siloxane-based biocatalytic fi lms and
paints for use as reactive coatings’, Biotechnology and Bioengineering, 72(4),
475–482.
knight, a. t., anderson, t. p., & ahmetagic, m. a. 1995, Biodegradable controlled
release amylaceous material matrix, US Patent 454093.
kost, j., leong, k., & langer, r. 1989, ‘Ultrasound-enhanced polymer degradation
and release of incorporated substances – (controlled release drug delivery
systems)’, Proceedings of the National Academy of Sciences of the United States
of America, 86(20), 7663–7666.
kudanga, t., nugroho prasetyo, e., sipilä, j., nousiainen, p., widsten, p., kandel-
bauer, a., nyanhongo, g. s., & gübitz, g. m. 2008, ‘Laccase-mediated wood surface
functionalization’, Engineering in Life Sciences, 8(3), 297–302.
kuderna, j. g. & saliman, p. m. 1974, Depletion indicator for controlled release pes-
ticide fomulations, US Patent 464869.
kwan, e. m., boraston, a. b., mclean, b. w., kilburn, d. g., & warren, r. a. j. 2005,
‘N-Glycosidase-carbohydrate-binding module fusion proteins as immobilized
enzymes for protein deglycosylation’, Protein Engineering Design & Selection,
18(10), 497–501.
labuza, t. p. & breene, w. m. 1989. ‘Applications of active packaging for improve-
ment of shelf-life and nutritional quality of fresh and extended shelf-life foods’.
Journal of Food Processing and Preservation, 13, 1–69.
lutolf, m. p., lauer-fi elds, j. l., schmoekel, h. g., metters, a. t., weber, f. e., fi elds,
g. b., & hubbell, j. a. 2003a, ‘Synthetic matrix metalloproteinase-sensitive hydro-
gels for the conduction of tissue regeneration: Engineering cell-invasion charac-
teristics’, Proceedings of the National Academy of Sciences of the United States of
America, 100(9), 5413–5418.
lutolf, m. p., raeber, g. p., zisch, a. h., tirelli, n., & hubbell, j. a. 2003b,
‘Cell-responsive synthetic hydrogels’, Advanced Materials, 15(11), 888–
892.
magne, v., amounas, m., innocent, c., dejean, e., & seta, p. 2002, ‘Enzyme textile for
removal of urea with coupling process: enzymatic reaction and electrodialysis’,
Desalination, 144(1–3), 163–166.
merlin, j. l. 1991, ‘Encapsulation of doxorubicin in thermosensitive small unilamel-
lar vesicle liposomes’, European Journal of Cancer, 27(8), 1026–1030.
mitchell, d. c. 1986, Protein compounds, US Patent 45568665.
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