Regenerative biosensor chips based on switchable mutants of avidin—A systematic study
Zauner, Dominik; Taskinen, Barbara; Eichinger, Daniel; Flattinger, Clemens; Ruttman, Bianca; Knoglinger, Claudia; Traxler, Lukas; Ebner, Andreas; Gruber, Hermann J; Hytönen, Vesa P (2016)
Zauner, Dominik
Taskinen, Barbara
Eichinger, Daniel
Flattinger, Clemens
Ruttman, Bianca
Knoglinger, Claudia
Traxler, Lukas
Ebner, Andreas
Gruber, Hermann J
Hytönen, Vesa P
2016
Sensors and Actuators B: Chemical 229
646-654
BioMediTech - BioMediTech
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:uta-201605301702
https://urn.fi/URN:NBN:fi:uta-201605301702
Tiivistelmä
Biotinylated bait molecules can be immobilized on biotinylated sensor chips by formation of biotin–avidin–biotin bridges which are very stable when using wild-type (strept)avidin. Stable immobilization of biotinylated baits is important for monitoring reversible binding and dissociation of prey molecules. For measurements with another bait molecule, however, it is desirable to replace all immobilized proteins by fresh (strept)avidin and new biotinylated bait. In this study, five avidin mutants have been characterized with respect to their ability to form switchable biotin–avidin–biotin bridges on biotinylated chip surfaces, as needed for complete chip regeneration. All five mutants formed stable biotin–avidin–biotin bridges at pH 7, were more or less stable at pH 2–3, and required the combination of pH 2 with SDS for quantitative removal from the chip surface. Mutant #3 (“switchavidin”) showed the best combination of properties, i.e., low nonspecific adsorption of protein and nucleic acids, high binding capacity, and good stability at pH 2–3, as typically used for quantitative removal of prey molecules in repeated measurement cycles.
Kokoelmat
- Artikkelit [6140]