Microarraying

Proteomics technology continues to evolve as proteomics and clinical diagnostic applications adapt microarrays and other high throughput methods. Although development of new surfaces for binding proteins continues, thin-film nitrocellulose remains the predominant immobilization surface for protein microarrays due to its many functional advantages (Balboni et al., 2006; Sakanyan 2005; Schweitzer et al., 2003; Feilner et al., 2004, see references page here).

The 3-dimensional structure of porous nitrocellulose film slides offers a considerably higher surface area for protein binding compared to conventional 2-dimensional surfaces. Increased binding capacity up to 500 fold. Pore size, pore structure, pore density and film thickness are all factors in protein binding capacity.

At Grace Bio-Labs we are focused on technology innovation and delivering constant improvement in protein microarray technology.

Products:

ONCYTE® Film-Slides

ProPlate™ Multi-Array Slide System

ProPlate™ Microtiter Plates

FlexWells™

Microarray Product References

Technology and Support:

Reverse Phase Protein Array Forum- here