Improved DNA microarray detection sensitivity through immobilization of preformed in solution streptavidin/biotinylated oligonucleotide conjugates.

A novel immobilization approach involving binding of preformed streptavidin/biotinylated oligonucleotide conjugates onto surfaces coated with biotinylated bovine serum albumin is presented. Microarrays prepared according to the proposed method were compared, in terms of detection sensitivity and specificity, with other immobilization schemes employing coupling of biotinylated oligonucleotides onto directly adsorbed surface streptavidin, or sequential coupling of streptavidin and biotinylated oligonucleotides onto a layer of adsorbed biotinylated bovine serum albumin. A comparison was performed employing biotinylated oligonucleotides corresponding to wild- and mutant-type sequences of seven single point mutations of the BRCA1 gene. With respect to the other immobilization protocols, the proposed oligonucleotide immobilization approach offered the highest hybridization signals (at least 5 times higher) and permitted more elaborative washings, thus providing considerably higher discrimination between complimentary and non-complementary DNA sequences for all mutations tested. In addition, the hybridization kinetics were significantly enhanced compared to two other immobilization protocols, permitting PCR sample analysis in less than 40 min. Thus, the proposed oligonucleotide immobilization approach offered improved detection sensitivity and discrimination ability along with considerably reduced analysis time, and it is expected to find wide application in DNA mutation detection.

High-capacity and high-intensity DNA microarray spots using oxygen-plasma nanotextured polystyrene slides.

Commercially available polystyrene (PS) slides were plasma nanotextured (nano-roughened) through treatment in oxygen plasma discharges to create substrates with increased surface area for microarray applications. Conditions of plasma treatment were determined for maximum and uniform oligonucleotide immobilization on these nanotextured PS slides. Oligonucleotides were immobilized onto the surface in the form of biotinylated oligonucleotide/streptavidin conjugates to take advantage of increased protein binding capacity of the substrate. It was found that the amount of oligonucleotides that could be immobilized was increased up to ten times on plasma treated as compared with untreated slides. The sensitivity of detection of labelled hybridized probes was improved by a factor of 20. Optimized nanotextured PS slides were subsequently used to develop a microarray for the detection of three deleterious BRCA1 gene mutations by immobilizing oligonucleotides corresponding to wild and mutant-type sequences. The microarray developed on the nanotextured PS slides provided higher specific hybridization signal and discrimination ratios as compared with flat untreated PS slides.