Abstract
The ability to identify and control the sex of embryos holds significant commercial implications for livestock production. Due to the high costs and instability of detection methods, it is necessary to establish a time-saving, effective, simple, and reliable method to identify the sex of mammalian embryos. This study designs primer probes based on the SRY gene sequence in the sex-determining region of the Y chromosome of sheep and combines qPCR to amplify both the SRY gene and the internal reference gene GAPDH as a control. By adjusting and optimizing the detection system with ultra-trace of genomic DNA (gDNA) from sheep blood and embryos, we sexed sheep embryos cultured in vitro. The results show that male embryos exhibit specific amplification bands for both the GAPDH and SRY genes, while female embryos only have amplification bands for the GAPDH gene. The sensitivity of the sheep embryo sex identification system established in this study can be as low as 5.64 pg of DNA, with an accuracy rate of 100% for embryo sex identification.