Interspecific Nuclear Transfer Blastocysts Reconstructed from Arabian Oryx Somatic Cells and Domestic Cow Ooplasm

SIMPLE SUMMARY: Interspecies SCNT-based cloning and in vitro production of interspecies SCNT-derived embryos allows cells that have undergone terminal differentiation to be reprogrammed to become totipotent cells. The development of the interspecific Somatic cell nuclear transfer oryx in vitro for the first time in Saudi Arabia will promote additional research on animal reproductive cloning for the preservation of endangered species. ABSTRACT: Cloning, commonly referred to as somatic cell nuclear transfer (SCNT), is the technique of enucleating an oocyte and injecting a somatic cell into it. This study was carried out with interspecific SCNT technology to clone the Arabian Oryx utilizing the oryx’s fibroblast cells and transfer it to the enucleated oocytes of a domestic cow. The recipient oocytes were extracted from the cows that had been butchered. Oryx somatic nuclei were introduced into cow oocytes to produce embryonic cells. The study was conducted on three groups, Oryx interspecific somatic cell nuclear transfer into enucleated oocytes of domestic cows, cow SCNT “the same bovine family species”, used as a control group, and in vitro fertilized (IVF) cows to verify all media used in this work. The rates of different embryo developmental stages varied slightly (from 1- cell to morula stage). Additionally, the oryx interspecies Somatic cell nuclear transfer blastocyst developmental rate (9.23%) was comparable to that of cow SCNT (8.33%). While the blastula stage rate of the (IVF) cow embryos exhibited a higher cleavage rate (42%) in the embryo development stage. The results of this study enhanced domestic cow oocytes’ ability to support interspecific SCNT cloned oryx, and generate a viable embryo that can advance to the blastula stage.