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Microfluidic library screening for mapping antibody epitopes.

Microfluidic library screening for mapping antibody epitopes. The capability to screen molecular libraries using disposable microfluidic devices provides the potential to simplify and automate reagent generation and to develop integrated bioanalytical systems for clinical diagnostics. Here, antibody epitopes were mapped using a disposable microfluidic device to screen a combinatorial peptide library composed of 5 x 108 members displayed on bacterial cells. On-chip library screening was achieved in a two-stage, continuous-flow microfluidic sorter that separates antibody-binding target cells captured on microspheres through dielectrophoretic funneling. The antibody fingerprints identified were comparable to those obtained using state-of-the-art commercial cell sorting instrumentation. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Analytical Chemistry Pubmed

Microfluidic library screening for mapping antibody epitopes.

Bessette, Paul H; Hu, Xiaoyuan; Soh, Hyongsok T; Daugherty, Patrick S
Analytical Chemistry , Volume 79 (5): -2165 – Jun 21, 2007
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Microfluidic library screening for mapping antibody epitopes.


Abstract

The capability to screen molecular libraries using disposable microfluidic devices provides the potential to simplify and automate reagent generation and to develop integrated bioanalytical systems for clinical diagnostics. Here, antibody epitopes were mapped using a disposable microfluidic device to screen a combinatorial peptide library composed of 5 x 108 members displayed on bacterial cells. On-chip library screening was achieved in a two-stage, continuous-flow microfluidic sorter that separates antibody-binding target cells captured on microspheres through dielectrophoretic funneling. The antibody fingerprints identified were comparable to those obtained using state-of-the-art commercial cell sorting instrumentation.

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ISSN
0003-2700
DOI
10.1021/ac0616916
pmid
17253874

Abstract

The capability to screen molecular libraries using disposable microfluidic devices provides the potential to simplify and automate reagent generation and to develop integrated bioanalytical systems for clinical diagnostics. Here, antibody epitopes were mapped using a disposable microfluidic device to screen a combinatorial peptide library composed of 5 x 108 members displayed on bacterial cells. On-chip library screening was achieved in a two-stage, continuous-flow microfluidic sorter that separates antibody-binding target cells captured on microspheres through dielectrophoretic funneling. The antibody fingerprints identified were comparable to those obtained using state-of-the-art commercial cell sorting instrumentation.

Journal

Analytical ChemistryPubmed

Published: Jun 21, 2007

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