Sensitivity of microarray based immunoassays using surface-attached hydrogels.

A promising pathway to improve on the sensitivity of protein microarrays is to immobilize the capture antibodies in a three dimensional hydrogel matrix. We describe a simple method based on printing of an aqueous protein solution containing a photosensitive polymer and the capture antibody onto a plastic chip surface. During short UV-exposure photocrosslinking occurs, which leads to formation of a hydrogel, which is simultaneously bound to the substrate surface.

MicroPrep: chip-based dielectrophoretic purification of mitochondria.

We have developed a microfluidic system--microPrep--for subcellular fractionation of cell homogenates based on dielectrophoretic sorting. Separation of mitochondria isolated from a human lymphoblastoid cell line was monitored by fluorescence microscopy and further characterized by western blot analysis. Robust high throughput and continuous long-term operation for up to 60 h of the microPrep chip system with complex biological samples became feasible as a result of a comprehensive set of technical measures: (i) coating of the inner surfaces of the chip with BSA, (ii) application of mechanical actuators to induce periodic flow patterns, (iii) efficient cooling of the device to ensure integrity of organelle, (iv) a wide channel to provide for high fluidic throughput, and (v) integration of a serial arrangement of 10 dielectrophoretic deflector units to enable separation of samples with a high particle load without clogging.

Printed protein microarrays on unmodified plastic substrates.

A key challenge for the generation of protein microarrays is the immobilization of functional capture probe proteins at the chip surfaces. Here, a new concept for a single step production of protein microarrays to unmodified plastic substrates is presented. It is based on the printing of polymer/protein mixtures and the photochemical attachment of the obtained microstructures to the plastic chip surfaces.