Improved biomolecule microarrays by printing on nanoporous aluminum oxide using a continuous-flow microspotter

摘要

Biomolecules, including protein A, albumin, and immunoglobulin G, are spotted on top of a nanoporous substrate by using a continuous-flow microspotter (CFM) system, which normally produces spots 3 to 4 orders of magnitude more sensitive than conventional biomolecule printing methods. The spots are observed with a fluorescence scanner. By using the CFM to print spots on nanoporous substrates, an additional order of magnitude increase in signal is observed, which leads to high signal-to-background ratios, highly saturated spots, and a measurable signal at printing concentrations as low as 1.6 ng mL~(-1). This technique produces highly concentrated biomolecular spots from dilute samples and significantly increases the sensitivity of sensing platforms.