The pregnancy-associated glycoproteins (PAGs) have been widely used as biomarkers for the early diagnosis of pregnancy in cattle and sheep. This study aimed to obtain the single-stranded DNA aptamers that specifically bound to ovine pregnancy-associated glycoprotein 7 (ovPAG7) with high affinity (Kd = 9.8-32.4 nM) using real serum sample-assisted FluMag-systematic evolution of ligands by exponential enrichment (SELEX). Subsequently, the selected aptamers were applied to fabricate an ultrasensitive colorimetric aptasensor for ovPAG7 detection based on functionalized magnetic microparticles and hybridization chain reaction. Under the optimized conditions, the colorimetric aptasensor exhibited a broad linear range (0.2-500 ng mL-1), low detection limit (0.081 ng mL-1), good recovery rate (94.5-109.1%), and high repeatability (relative standard deviation of 4.02-8.16%) in ovPAG7-spiked serum. Furthermore, this aptasensor was applied to measure the ovPAG7 in serum samples of ewes for pregnancy diagnosis. Blood samples were collected from Chinese Merino ewes on days 22, 28 after artificial insemination (AI) for ovPAG7 detection, respectively. Transrectal ultrasonography diagnosis of pregnancy 45 days after AI was the reference (gold) standard for all PAG tests. Diagnostic sensitivity, specificity, and accuracy of the proposed aptasensor were 95.8, 87.5, and 92.5% at day 22 and 95.8, 90.6, and 93.7% at day 28, respectively. The degree of agreement (Kappa) between developed aptasensor and ultrasonography diagnosis 22 and 28 day after AI were higher than 0.8. These results illustrated that the aptasensor was proved to be a sensitive, reliable and cost-effective way of measuring PAG and might be a useful means of pregnancy detection in ewes.

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 48 kDa 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 = 11.7~40.2 nM) were identified. The selected aptamers were successfully used in enzyme-linked aptamer assay (ELAA) to detect bPAG4 at a detection limit of 0.09 ng/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.

DNA aptamers that bind to bovine pregnancy-associated glycoproteins (bPAGs) were selected by the systematic evolution of ligands by exponential enrichment (SELEX) procedure coupled to surface plasmon resonance (SPR) and high-throughput sequencing (HTS) technology. After seven rounds of selection using carboxylated magnetic beads (MB) coated with bovine pregnancy-associated glycoproteins 9 (bPAG9) and bovine serum albumin (BSA) as target and counter targets, respectively, two aptamers designated as A1 and A24 showed high affinities to bPAG9 (Kd = 1.04 and 2.5 nM). Moreover, the specificity was determined by testing the non-targets bPAG4, bPAG6, bPAG16, BSA, and ovalbumin (OVA). Results showed that two aptamers demonstrated broad group specificity to bPAG family. Subsequently, a colorimetric sandwich enzyme-linked aptamer assay was developed for ultrasensitive detection of bPAG9 based on hybridization chain reaction (HCR) amplification strategy. The method exhibited a broad determination from 0.134 to 134 ng/mL with a detection limit of 0.037 ng/mL. The method has been successfully applied to determine bPAGs in real samples. The results demonstrate that the developed aptamers could be used as promising molecular probes for the development of pregnancy diagnostic tools. Graphical abstract In this study, we first selected aptamers against bovine pregnancy-associated glycoproteins (bPAGs) as molecular recognition elements and then developed a colorimetric enzyme-linked aptamer assay utilizing hybridization chain reaction to detect bPAGs in the serum.The GA can\'t be deleted, the modified GA can not upload. So themodified GA and figures will be send to CorrAdmin3@spi-global.com.