Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays

Turchanin A, Tinazli A, El-Desawy M, Grossmann H, Schnietz M, Solak HH, Tampe R, Gölzhäuser A (2008)
Advanced Materials 20(3): 471-477.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Turchanin, AndreyUniBi; Tinazli, Ali; El-Desawy, Mohamed; Grossmann, Helge; Schnietz, MarkUniBi; Solak, Harun H.; Tampe, Robert; Gölzhäuser, ArminUniBi
Abstract / Bemerkung
Electron-induced chemical lithography combined with self-assembled monolayers and multivalent chelators for high-affinity capturing of His-tagged proteins are used to obtain specific, stable, highly parallel, and functional protein micro- and nanoarrays on solid substrates. ne functionality of the generated large-area protein arrays is shown in situ via specific, homogeneous, oriented and reversible immobilization of His(6)-tagged 20S proteasome and fluorescence labelled His(10)-tagged maltose binding proteins.
Erscheinungsjahr
2008
Zeitschriftentitel
Advanced Materials
Band
20
Ausgabe
3
Seite(n)
471-477
ISSN
0935-9648
eISSN
1521-4095
Page URI
https://pub.uni-bielefeld.de/record/1592749

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Turchanin A, Tinazli A, El-Desawy M, et al. Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays. Advanced Materials. 2008;20(3):471-477.
Turchanin, A., Tinazli, A., El-Desawy, M., Grossmann, H., Schnietz, M., Solak, H. H., Tampe, R., et al. (2008). Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays. Advanced Materials, 20(3), 471-477. https://doi.org/10.1002/adma.200702189
Turchanin, Andrey, Tinazli, Ali, El-Desawy, Mohamed, Grossmann, Helge, Schnietz, Mark, Solak, Harun H., Tampe, Robert, and Gölzhäuser, Armin. 2008. “Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays”. Advanced Materials 20 (3): 471-477.
Turchanin, A., Tinazli, A., El-Desawy, M., Grossmann, H., Schnietz, M., Solak, H. H., Tampe, R., and Gölzhäuser, A. (2008). Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays. Advanced Materials 20, 471-477.
Turchanin, A., et al., 2008. Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays. Advanced Materials, 20(3), p 471-477.
A. Turchanin, et al., “Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays”, Advanced Materials, vol. 20, 2008, pp. 471-477.
Turchanin, A., Tinazli, A., El-Desawy, M., Grossmann, H., Schnietz, M., Solak, H.H., Tampe, R., Gölzhäuser, A.: Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays. Advanced Materials. 20, 471-477 (2008).
Turchanin, Andrey, Tinazli, Ali, El-Desawy, Mohamed, Grossmann, Helge, Schnietz, Mark, Solak, Harun H., Tampe, Robert, and Gölzhäuser, Armin. “Molecular self-assembly, chemical lithography, and biochemical tweezers: A path for the fabrication of functional nanometer-scale protein arrays”. Advanced Materials 20.3 (2008): 471-477.
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