Electrokinetic label-free screening chip: a marriage of multiplexing and high throughput analysis using surface plasmon resonance imaging.

We present an electrokinetic label-free biomolecular screening chip (Glass/PDMS) to screen up to 10 samples simultaneously using surface plasmon resonance imaging (iSPR). This approach reduces the duration of an experiment when compared to conventional experimental methods. This new device offers a high degree of parallelization not only for analyte samples, but also for multiplex analyte interactions where up to 90 ligands are immobilized on the sensing surface. The proof of concept has been demonstrated with well-known biomolecular interactant pairs. The new chip can be used for high throughput screening applications and kinetics parameter extraction, simultaneously, of interactant-protein complex formation.

Electrokinetic lab-on-a-biochip for multi-ligand/multi-analyte biosensing.

We present a simple electrokinetic lab-on-a-biochip (EKLB) with four microchannels integrated with a surface plasmon resonance imaging (iSPR) label-free biosensor that is operated using a single electrical voltage for the simultaneous transport of reagents in all microchannels without conventional fluidic plumbing. We demonstrate the utility of the simple approach with various biosensing experiments, including single injection kinetics (multiple varied ligand densities and single analyte concentration), one shot kinetics (single ligand densities and multiple varied analyte concentrations), and multi-ligand/multianalyte detection. In all cases, the binding kinetics and affinity were extracted using a conventional 1:1 interaction model. Since the reagent transport is done with a single electrical voltage source, scaling up to hundreds to thousands of simultaneous experiments is straightforward.