Chapter 1 Biosensors based on self-assembled monolayers
作者: Daniela D. Schlereth
DOI: 10.1016/S0166-526X(05)44001-5
关键词: Context (language use) 、 Surface plasmon resonance 、 Ligand (biochemistry) 、 Nanotechnology 、 Silicon chip 、 Biomolecule 、 Microfabrication 、 Chemistry 、 Biosensor 、 Self-assembled monolayer
摘要: Publisher Summary This chapter focuses on the relevance of surface chemistry based self-assembling techniques within context manufacture analytical biosensing devices. The combination self-assembly and microfabrication techniques—such as photopatterning or microcontact printing—allows micrometer-scale arrays biomolecules distributed throughout a protein-resistant (e.g., surface-modified silicon chip), which are basis for high-throughput screening diagnostics Biological affinity system that is particularly useful construction biosensors biotin–streptavidin complex. Surface plasmon resonance- quartz microbalance-based have been widely used study binding interactions between receptor proteins, antibodies, nucleic acids their biological partners, wherein sensitivity, selectivity, reliability, time-response depend capability ligand immobilized sensor to build selectively reversibly
elsevier.com
sci-hub.se 参考文章(259)
W. Brett Caldwell, Kaimin Chen, Chad A. Mirkin, Susan J. Babinec, Self-Assembled Monolayer Films of C60 on Cysteamine-Modified Gold Langmuir. ,vol. 9, pp. 1945- 1947 ,(1993) , 10.1021/LA00032A002
Mark Schena, Microarray Biochip Technology ,(2000)
Abraham Ulman, An Introduction to Ultrathin Organic Films: From Langmuir--Blodgett to Self--Assembly ,(1991)
David I. Gittins, Donald Bethell, David J. Schiffrin, Richard J. Nichols, A nanometre-scale electronic switch consisting of a metal cluster and redox-addressable groups Nature. ,vol. 408, pp. 67- 69 ,(2000) , 10.1038/35040518
D.J. Vandenheuvel, R.P.H. Kooyman, J.W. Drijfhout, G.W. Welling, Synthetic Peptides as Receptors in Affinity Sensors: A Feasibility Study Analytical Biochemistry. ,vol. 215, pp. 223- 230 ,(1993) , 10.1006/ABIO.1993.1579
Evelyne L. Schmid, Thomas A. Keller, Zoltan Dienes, Horst Vogel, Reversible Oriented Surface Immobilization of Functional Proteins on Oxide Surfaces Analytical Chemistry. ,vol. 69, pp. 1979- 1985 ,(1997) , 10.1021/AC9700033
G. C. Osbourn, J. W. Bartholomew, A. J. Ricco, G. C. Frye, Visual-Empirical Region-of-Influence Pattern Recognition Applied to Chemical Microsensor Array Selection and Chemical Analysis Accounts of Chemical Research. ,vol. 31, pp. 297- 305 ,(1998) , 10.1021/AR970070J
A. A. Kloss, N. Lavrik, C. Yeung, D. Leckband, Effect of the Microenvironment on the Recognition of Immobilized Cytochromes by Soluble Redox Proteins Langmuir. ,vol. 16, pp. 3414- 3421 ,(2000) , 10.1021/LA990909Z
S. M. Amador, J. M. Pachence, R. Fischetti, J. P. McCauley, A. B. Smith, J. K. Blasie, Use of self-assembled monolayers to covalently tether protein monolayers to the surface of solid substrates Langmuir. ,vol. 9, pp. 812- 817 ,(1993) , 10.1021/LA00027A034
Hun Gi Hong, Min Jiang, Stephen G. Sligar, Paul W. Bohn, Cysteine-specific surface tethering of genetically engineered cytochromes for fabrication of metalloprotein nanostructures Langmuir. ,vol. 10, pp. 153- 158 ,(1994) , 10.1021/LA00013A023