Selection, identification, and application of DNA aptamers against bovine pregnancy-associated glycoproteins 4.

Abstract

The bovine pregnancy-associated glycoproteins (bPAGs) have been widely used as robust markers for early diagnosis of pregnancy in the cattle. The current immune recognition methods for detecting bPAGs are limited and, to a certain extent, are associated with high costs and poor stability of the antibody. Aptamers that are more stable and easily synthesized than antibodies might serve as suitable candidates for the development of rapid detection methods. This paper describes selection and characterization of bPAG4 aptamers and theirs applicability to detect bPAG4 in the serum. In this work, the recombinant bovine pregnancy-associated glycoproteins 4 (bPAG4) with a relative molecular mass of about 48kDa was successfully expressed in human embryonic kidney 293 (HEK 293) cells. Subsequently, the ssDNA aptamers were selected by systematic evolution of ligands by exponential enrichment (SELEX) using magnetic beads (MB) coated with bPAG4 as target. After 9 rounds of selection, three aptamers with high affinity to bPAG4 (Kd = 11.7~40.2nM) were identified. The selected aptamers were successfully used in enzyme-linked aptamer assay (ELAA) to detect bPAG4 at a detection limit of 0.09ng/mL. Meanwhile, it has been successfully applied for the detection of bPAG4 in serum samples. This work demonstrated that the selected aptamers could be used as promising affinity probes in the development of inexpensive, simple, and sensitive analysis methods for detecting bPAGs. Graphical abstract.