Biomedical Engineering Reference
In-Depth Information
[71]
Li, X; Husson, SM. Adsorption of dansylated amino acids on molecularly imprinted
surfaces: a surface plasmon resonance study.
Biosensors and Bioelectronics
, 2006, 22,
336-348.
[72]
Bossi, A; Rivetti, C; Mangiarotti, L; Whitcombe, MJ; Turner, APF; Piletsky, SA.
Patterned gallium surfaces as molecular mirrors.
Biosensors and Bioelectronics
, 2007,
23, 290-294.
[73]
Rachkov, A; Minoura, N. Recognition of oxytocin and oxytocin-related peptides in
aqueous media using a molecularly imprinted polymer synthesized by the epitope
approach.
Journal of Chromatography A
, 2000, 889, 111-118 .
[74]
Slinchenko, O; Rachkov, A; Miyachi, H; Ogiso, M; Minoura, N. Imprinted polymer
layer for recognizing double-stranded DNA,
Biosensors and Bioelectronics
, 2004, 20,
1091-1097.
[75]
Nishino, H; Huang, CS; Shea, KJ. Selective protein capture by epitope imprinting.
Angewandte Chemie International Edition
, 2006, 45, 2392-2396.
[76]
Brown, ME; Puleo, DA. Protein binding to peptide-imprinted porous silica scaffolds.
Chemical Engineering Journal
, 2008, 137, 97-101.
[77]
Papisov IM; Litmanovich, AA. Molecular 'Recognition' in interpolymer interactions
and matrix polymerization.
Advances in Polymer Science
, 1989, 90, 139-179.
[78]
Wulff, G. Molecular imprinting in cross-linked materials with the aid of molecular
templates - a way towards artificial antibodies.
Angewandte Chemie International
Edition in English
, 1995, 34, 1812-1832.
[79]
Wulff, G. Enzyme-like Catalysis by Molecularly Imprinted Polymers.
Chemical
Reviews
, 2002, 102, 1-28.
[80]
Andersson, L; Sellergren, B; Mosbach, K. Imprinting of amino acid derivatives in
macroporous polymers.
Tetrahedron Letters
, 1984, 25, 52115214.
[81]
Mosbach, K. Molecular imprinting.
Trends in Biochemical Sciences
, 1994, 19, 9-14.
[82]
Yan, M; Ramstrom O. (Eds.), Molecularly Imprinted Materials: Science and
Technology, Marcel Dekker, New York, NY, 2005.
[83]
Holthoff, EL; Bright, FV. Molecularly templated materials in chemical sensing.
Analytica Chimica Acta
, 2007, 594, 147-161.
[84]
Mayes, AG; Whitcombe, MJ. Synthetic strategies for the generation of molecularly
imprinted organic polymers.
Advanced Drug Delivery Reviews
, 2005, 57, 1742-1778.
[85]
Maier, NM; Lindner, W. Chiral recognition applications of molecularly imprinted
polymers: a critical review.
Analytical and Bioanalytical Chemistry
, 2007, 389, 377-
397.
[86]
Pang, X; Cheng, G; Zhang, Y; Lu, S. Soft-wet polyacrylamide gel beads with the
imprinting of bovine serum albumin.
Reactive and Functional Polymers
, 2006,66, 1182-
1188.
[87]
Hirayama, K; Sakai, Y; Kameoka, K. Synthesis of polymer particles with specific
lysozyme recognition sites by a molecular imprinting technique.
Journal of Applied
Polymer Science
, 2001, 81, 3378-3387.
[88]
Lin, HY; Hsu, CY; Thomas, JL; Wang, SE; Chen, HC; Chou, TC. The microcontact
imprinting of proteins: The effect of cross-linking monomers for lysozyme, ribonuclease
A and myoglobin.
Biosensors and Bioelectronics
, 2006, 22, 534-543.
