Surface plasmon resonance-based biosensors

V. Gaudin, J. Fontaine and P. Maris, Screening of penicillin residues in milk by a surface plasmon resonance-based biosensor assay comparison... [Pg.491]

E. Gustavsson, J. Degelaen, P. Bjurling and A. Sternesjo, Determination of p-lactams in milk using a surface plasmon resonance-based biosensor, J. Agric. Food Chem., 52 (2004) 2791-2796. [Pg.684]

Guidi, A., Laricchia Robbio, L., Gianfaldoni, D., Revoltella, R., and Del Bono, G. (2001) Comparison of a conventional immunoassay (ELISA) with a surface plasmon resonance based biosensor for IGF 1 detection in cows milk. Biosensors and Bioelec Ironies, 16, 971 977. [Pg.377]

Advances in antibody production, and specifically the recent emergence of phage-displayed peptide biosensors [6,7], now offer increased possibilities for the rapid detection of pathogens with immunosensor systems. Surface plasmon resonance-based biosensor studies involve the detection of proteins [8], hormones [9], toxins... [Pg.202]

Dillon R. R, Daly S. J., Manning B. M., and O Kennedy R., Immunoassay for the determination of morphine-3-glucuronide using a surface plasmon resonance-based biosensor, Biosens. Bioelectron., 18, 217-227, 2003. [Pg.224]

Cacciatore G, Bergwerff AA, Petz M, Development of screening assays for veterinary drug residues utilizing surface plasmon resonance-based biosensor, in Stephany R, Bergwerff A, eds., Proc. EuroResidue V, Natl. Inst. Public Health and the Environment and Utrecht Univ., Utrecht, The Netherlands, 2004, pp. 143-150. [Pg.186]

Robbio, L.L., Uboldi, R, Marcovina, S., et al. (2001) Epitope Mapping Analysis of Apohpoprotein B-lOO Using a Surface Plasmon Resonance-Based Biosensor. Biosensors and Bioelectronics, 16 (9-12), 963-969. [Pg.260]

Abbas A, Linman MJ, Cheng Q. New trends in instrumental design for surface plasmon resonance-based biosensors. Biosens Bioelectron 2011 26 1815-1824. [Pg.364]

Lu, X., Zheng, H., Lli, X.-Q. et al. (2012) Detection of ractopamine residues in pork by surface plasmon resonance-based biosensor inhibition immunoassay. Food Chem., 130, 1061-1065. [Pg.293]

M. J. O Brien, V. H. Perez-Luna, S.R.J. Brueck, and G.P. Lopez, "A Surface plasmon Resonance Array Biosensor Based on Spectroscopic Imaging," Biosensors Bioelectronics 16, 97-108 (2001). [Pg.117]

Navratilova 1, Myszka DG (2006) Investigating biomolecular interactions and binding properties using spr biosensors. Surface plasmon resonance based sensors. Springer, Berlin, pp 159-161... [Pg.151]

Endo, T., Kennan, K., Nagatani, N., Takamura, Y., Tamiya, E. (2005a). Label-free detection of peptide nucleic acid-DNA hybridization using localized surface plasmon resonance based optical biosensor. Anal Chem 77, 6976-6984. [Pg.153]

Dostalek J., Ctyroky J., Homola J., Brynda E., Skalsky M., Nekvindova P., Spirkova J., Skvor J., Schrofel J., Surface plasmon resonance biosensor based on integrated optical waveguide, Sensors and Actuators 2001 76 8-12. [Pg.191]

The results summarized above were obtained by using fluorescence based assays employing phospholipid vesicles and fluorescent labeled lipopeptides. Recently, surface plasmon resonance (SPR) was developed as new a technique for the study of membrane association of lipidated peptides. Thus, artificial membranes on the surface of biosensors offered new tools for the study of lipopeptides. In SPR (surface plasmon resonance) systemsI713bl changes of the refractive index (RI) in the proximity of the sensor layer are monitored. In a commercial BIAcore system1341 the resonance signal is proportional to the mass of macromolecules bound to the membrane and allows analysis with a time resolution of seconds. Vesicles of defined size distribution were prepared from mixtures of lipids and biotinylated lipopeptides by extruder technique and fused with a alkane thiol surface of a hydrophobic SPR sensor. [Pg.377]

Figure 7. Concept of affinity biosensor based on surface plasmon resonance.

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