Biomedical Engineering Reference
In-Depth Information
54. I. Vikholm, E. Györvary, and J. Peltonen, Incorporation of lipid-tagged single-chain antibodies into lipid
monolayers and the interaction with antigen.
Langmuir
12
, 3276-3281 (1996).
55. K. Nakanishi, H. Muguruma, K. Ikebukuro, and I. Karube, A novel method of immobilizing antibodies
on a quartz crystal microbalance using plasma-polymerized fi lms for immunosensors.
Anal. Chem.
68
,
1695-1700 (1996).
56. R. Nakamura, H. Muguruma, K. Ikebukuro, S. Sasaki, R. Nagata, I. Karube, and H. Pedersen, A plasma-
polymerized fi lm for surface plasmon resonance immunosensing.
Anal. Chem.
69
, 4649-4652 (1997).
57. H. Wang, D. Li, Z.Y. Wu, G.L. Shen, and R.Q. Yu, A reusable piezo-immunosensor with amplifi ed sen-
sitivity for ceruloplasmin based on plasma-polymerized fi lm.
Talanta
62
, 201-206 (2004).
58. S. Iijima, Helical microtubules of graphitic carbon.
Nature
354
, 56-58 (1991).
59. J. Wang and M. Musameh, Carbon nanotube/tefl on composite electrochemical sensors and biosensors.
Anal. Chem.
75
, 2075-2079 (2003).
60. S. Hrapovic, Y. Liu, K.B. Male, and J.H.T. Luong, Electrochemical biosensing platforms using platinum
nanoparticles and carbon nanotubes.
Anal. Chem.
76
, 1083-1088 (2004).
61. D. Pantarotto, C.D. Partidos, R. Graff, J. Hoebeke, J.P. Briand, M. Prato, and A. Bianco, Synthesis,
structural characterization, and immunological properties of carbon nanotubes functionalized with pep-
tides.
J. Am. Chem. Soc.
125
, 6160-6164 (2003).
62. H. Wang, J.S. Li, Y.J. Ding, C.X. Lei, G.L. Shen, and R.Q. Yu, Novel immunoassay for Toxoplasma
gondii-specifi c immunoglobulin G using a silica nanoparticle-based biomolecular immobilization
method.
Anal. Chim. Acta
501
, 37-43 (2004).
63. Y.S. Fung and Y.Y. Wong, Self-assembled monolayers as the coating in a quartz piezoelectric crystal
immunosensor to detect salmonella in aqueous solution.
Anal. Chem.
73
, 5302-5309 (2001).
64. W. Lee, B.K. Oh, Y.M. Bae, S.H. Paek, W.H. Lee, and J.W. Choi, Fabrication of self-assembled protein
A monolayer and its application as an immunosensor.
Biosens. Bioelectron.
19
, 185-192 (2003).
65. H. Wang, Y. Liu, Y. Yang, T. Deng, G.L. Shen, and R.Q. Yu, A protein A-based orientation-control-
led immobilization strategy for antibodies using nanometer-sized gold particles and plasma-polymerized
fi lm.
Anal. Biochem.
324
, 219-226 (2004).
66. J. Kaur, K.V. Singh, A.H. Schmid, G.C. Varshney, C.R. Suri, and M. Raje, Atomic force spectroscopy-
based study of antibody pesticide interactions for characterization of immunosensor surface.
Biosens.
Bioelectron.
20
, 284-293 (2004).
67. I. Vikholm, W.M. Albers, H. Välimäki, and H. Helle, In situ quartz crystal microbalance monitoring of
Fab
-fragment binding to linker lipids in a phosphatidylcholine monolayer matrix: application to immu-
nosensors.
Thin Solid Films
327
, 643-646 (1998).
68. B. Lu, M.R. Smyth, and R. O'Kennedy, Oriented immobilization of antibodies and its applications in
immunoassays and immunosensors.
Analyst
121
, 29R-32R (1996).
69. D.A. Palmer, M.T. French, and J.N. Miller, Use of protein A as an immunological reagent and its appli-
cation using fl ow injection: a review.
Analyst
119
, 2769-2776 (1994).
70. K. Saha, F. Bender, and E. Gizeli, Comparative study of IgG binding to proteins G and A: nonequilib-
rium kinetic and binding constant determination with the acoustic waveguide device.
Anal. Chem.
75
,
835-842 (2003).
71. D.J.O. Shannessy and W.L. Hoffman, Site-directed immobilization of glycoproteins on hydrazide-
containing solid supports.
Biotechnol. Appl. Biochem.
9
, 488-496 (1987).
72. A.A. Karyakin, G.V. Presnova, M.Y. Rubtsova, and A.M. Egorov, Oriented immobilization of antibodies
onto the gold surfaces via their native thiol groups.
Anal. Chem.
72
, 3805-3811 (2000).
73. H. Wang, J. Wu, J.S. Li, Y.J. Ding, G.L. Shen, and R.Q. Yu, Nanogold particle-enhanced oriented adsorp-
tion of antibody fragments for immunosensing platforms.
Biosens. Bioelectron.
20
, 2210-2217 (2005).
74. V.B. Kandimalla, N.S. Neeta, N.G. Karanth, M.S. Thakur, K.R. Roshini, B.E.A. Rani, A. Pasha, and
N.G.K. Karanth, Regeneration of ethyl parathion antibodies for repeated use in immunosensor: a study
on dissociation of antigens from antibodies.
Biosens. Bioelectron.
20
, 903-906 (2004).
75. E.P. Medyantseva, E.V. Khaldeeva, and G.K. Budnikov, Immunosensors in biology and medicine: ana-
lytical capabilities, problems, and prospects.
J. Anal. Chem.
56
, 886-900 (2001).
76. R.Q. Yu, Z.R. Zhang, and G.L. Shen, Potentiometric sensors: aspects of the recent development.
Sens.
Actuators B
65
, 150-153 (2000).
Search WWH ::
Custom Search