Aptamer-Based Regionally Protected PCR for Protein Detection

Abstract

DNA aptamers are single-stranded nucleotide sequences that bind specifically to target molecules. By combining the advantages of PCR for amplifying specific DNA sequences and aptamer technology, we have developed a new strategy to detect target molecules such as proteins. Ovine follicle-stimulating hormone alpha subunit (oFSHalpha) was used as the model protein to generate a specific DNA aptamer via an in vitro evolutionary process. A targeted regional-mapping approach and a target-capturing assay were used to identify the binding region on the aptamer molecule. In the detection assay, referred to as "aptamer-based regionally protected PCR" (ARP-PCR), the aptamer was allowed to bind to the target protein in solution before digestion with DNase I. The region of the aptamer bound to the target was protected from DNase I cleavage. The target-binding region of the aptamer protected from the enzymatic treatment was then amplified by the PCR. Aptamers against oFSHalpha were generated. Six sequences of 20 selected aptamer clones were identical. This aptamer sequence was divided into 4 regions according to the aptamer's secondary structure. From examination of the target-binding ability of each region, we determined the specific binding region, for which primers were designed. With the aptamer and primers to detect oFSHalpha by means of the ARP-PCR method, we were able to detect the target protein at concentrations as low as 10(-14) mol/L. Combining the use of a DNA aptamer with the PCR is a potentially useful analytic tool for detection of proteins at low concentrations. .