Block copolymer-oligonucleotide conjugates for genotyping on microarrays.

Polymer–oligonucleotide conjugates were synthesized from the amphiphilic block copolymer poly(tert-butylacrylamide-b-(N-acryloylmorpholine-co-N-acryloxysuccinimide)) using an original solid-phase DNA synthesis strategy. This method provided conjugates highly functionalized with oligonucleotides throughout the polymer chain. After purification, block copolymer–oligonucleotide conjugates were spotted on a multidetection microarray system developed by Apibio using a standard nanodroplet piezo inkjet spotting technique to develop the oligosorbent assay (OLISA). Two genotyping models (HLA–DQB1 and platelet glycoproteins [GPs]), which are particularly difficult to study with standard systems, were evaluated. For both models, block copolymer–oligonucleotide conjugates used as capture probes amplified the responses of in vitro diagnostic assays. The detection limit reached by using conjugates was estimated at 15 pM for a 219-bp DNA target (HLA–DQB1 model). Moreover, single nucleotide polymorphism was detected in the platelet GPs genotyping model. The use of polymer conjugates led to a significant improvement in both sensitivity and specificity of standard hybridization assays even when applied to complex biological models.