Abstract

Aptamers have shown great promise as oligonucleotide-based affinity ligands for various medicinal and industrial applications. A critical step in the production of DNA aptamers via selective enhancement of ligands by exponential enrichment (SELEX) is the generation of ssDNA from dsDNA. There are a number of caveats associated with current methods for ssDNA generation, which can lower success rates of SELEX experiments. They often result in low yields thereby decreasing diversity or fail to eliminate parasitic PCR by-products leading to accumulation of by-products from round to round. Both contribute to the failure of SELEX protocols and therefore potentially limit the impact of aptamers compared to their peptide-based antibody counterparts.We have developed a novel method using ion pair reversed phase HPLC (IP RP HPLC) employed under denaturing conditions for the ssDNA re-generation stage of SELEX following PCR. We have utilised a range of 5′ chemical modifications on PCR primers to amplify PCR fragments prior to separation and purification of the DNA strands using denaturing IP RP HPLC. We have optimised mobile phases to enable complete denaturation of the dsDNA at moderate temperatures that circumvents the requirement of high temperatures and results in separation of the ssDNA based on differences in their hydrophobicity. Validation of the ssDNA isolation and purity assessment was performed by interfacing the IP RP HPLC with mass spectrometry and fluorescence-based detection.The results show that using a 5′ Texas Red modification on the reverse primer in the PCR stage enabled purification of the ssDNA from its complimentary strand via IP RP HPLC under denaturing conditions. Additionally, we have confirmed the purity of the ssDNA generated as well as the complete denaturation of the PCR product via the use of mass-spectrometry and fluorescence analysis therefore proving the selective elimination of PCR by-products and the unwanted complementary strand. Following lyophilisation, ssDNA yields of up to 80% were obtained. In comparison the streptavidin biotin affinity chromatography also generates pure ssDNA with a yield of 55%. The application of this method to rapidly generate and purify ssDNA of the correct size, offers the opportunity to improve the development of new aptamers via SELEX.

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