| 19647744 |
Wen X, He H, Lee LJ: Specific antibody immobilization with biotin-poly (L-lysine)-g-poly (ethylene glycol) and protein A on microfluidic chips. J Immunol Methods. 2009 Oct 31;350(1-2):97-105. Epub 2009 Aug 6.
Highly efficient antibody immobilization is crucial for conducting high-performance immunoassays such as enzyme-linked immunosorbent assay (ELISA) in microarray and microfluidic biochips. In this study, a biotin-poly (L-lysine)-g-poly (ethylene glycol) (biotin-PLL-g-PEG) and protein A-based technique was developed to immobilize antibody on the surface of poly (methyl methacrylate) (PMMA) microchannels. First, PMMA surface was activated by oxygen plasma, followed by poly (acrylic acid) (PAA) grafting to add functional carboxyl group for subsequent binding. After the biotin-PLL-g-PEG molecules reacted with carboxyl groups through the electrostatic interactions, biotinylated protein A was immobilized on the surface through a linking molecule, neutravidin. To evaluate the applicability of this novel immobilization strategy, human interferon-gamma (IFN-gamma) was used as a model protein. Since protein A could better control the immobilization orientation, and the combination of biotin-PLL-g-PEG and PLL-g-PEG could adjust the conformation of antibodies, antigen capture efficiency and detection signals were significantly improved on the microchips by using this strategy. The optimal grafting conditions were also experimentally determined: the biotin grafting ratio of 0.189 in the PLL-g-PEG molecule and the mixture ratio of 85% (biotin-PLL-g-PEG to PLL-g-PEG). This surface modification can be applied for targeted drug delivery, biosensor and other immunoassay applications. |
14(0,0,2,4) |