Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin
Müller J, Risse JM, Friehs K, Flaschel E (2015)
Engineering in Life Sciences 15(6): 627-639.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Einrichtung
Abstract / Bemerkung
The protein streptavidin (SAV) is applied in a large variety of molecular methods due to an extraordinarily strong binding to the vitamin biotin (BIO). The protein structure is homotetrameric, characterized by one binding site for BIO per subunit. Therefore, one of the major criteria to determine the quality of SAV isolates is the proportion of BIO-blocked binding sites per tetramer. A rapid analysis of BIO-free binding sites is achieved by fluorescence quenching of biotin-4-fluorescein (B4F). However, BIO-blocked binding sites can only be determined by costly and laborious procedures such as ELISA-based methods or radioactive labeling. This study describes the systematic, model-supported development of a method for the quick and simple detection of BIO-blocked binding sites, based on a short-term heat incubation of the sample in the presence of B4F. Kinetic modeling and parameter estimation yielded dissociation constants of 1.22 +/- 0.27 x 10(-11) M for the complex SAV-BIO and 5.16 +/- 0.70 x 10(-13) M for SAV-B4F at 70 degrees C, allowing a displacement of SAV-bound BIO by B4F. This method allows the rapid monitoring of BIO-blocked binding sites in fermentation processes, independent from the chain length of SAV and the concentration of contaminating proteins, e.g. when optimizing the BIO concentration in cultivation media.
Stichworte
Kinetic modeling Streptavidin monitoring Fermentation Detection of biotin-blocked binding sites Assay
Erscheinungsjahr
2015
Zeitschriftentitel
Engineering in Life Sciences
Band
15
Ausgabe
6
Seite(n)
627-639
ISSN
1618-0240
Page URI
https://pub.uni-bielefeld.de/record/2767378
Zitieren
Müller J, Risse JM, Friehs K, Flaschel E. Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin. Engineering in Life Sciences. 2015;15(6):627-639.
Müller, J., Risse, J. M., Friehs, K., & Flaschel, E. (2015). Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin. Engineering in Life Sciences, 15(6), 627-639. doi:10.1002/elsc.201400227
Müller, Jakob, Risse, Joe Max, Friehs, Karl, and Flaschel, Erwin. 2015. “Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin”. Engineering in Life Sciences 15 (6): 627-639.
Müller, J., Risse, J. M., Friehs, K., and Flaschel, E. (2015). Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin. Engineering in Life Sciences 15, 627-639.
Müller, J., et al., 2015. Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin. Engineering in Life Sciences, 15(6), p 627-639.
J. Müller, et al., “Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin”, Engineering in Life Sciences, vol. 15, 2015, pp. 627-639.
Müller, J., Risse, J.M., Friehs, K., Flaschel, E.: Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin. Engineering in Life Sciences. 15, 627-639 (2015).
Müller, Jakob, Risse, Joe Max, Friehs, Karl, and Flaschel, Erwin. “Model-based development of an assay for the rapid detection of biotin-blocked binding sites of streptavidin”. Engineering in Life Sciences 15.6 (2015): 627-639.
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