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Vertebrate reproductive science and technology
RESEARCH ARTICLE

20 Aggregation of yak heterospecific somatic cell nuclear transfer embryos improves cloning efficiency

M. Yauri Felipe A B , M. Duque Rodríguez A , A. De Stéfano A and D. Salamone A
+ Author Affiliations
- Author Affiliations

A Laboratorio de Biotecnología Animal, FAUBA/INPA-CONICET, Buenos Aires, Argentina;

B Programa Nacional de Innovación Agraria, Lima, Perú

Reproduction, Fertility and Development 32(2) 135-136 https://doi.org/10.1071/RDv32n2Ab20
Published: 2 December 2019

Abstract

Cloning endangered species has the limitation that generally the number of available oocytes is limited. Reprogramming the nuclei heterospecifically using an enucleated oocyte from a different species is an alternative. Aggregation of SCNT (somatic cell nuclear transfer) embryos from the same specie results in improved embryo development. However, after aggregation of heterospecific SCNT embryos from different genera, no effects were observed (Moro et al. 2015 Reproduction 50, 1-10). The objective of this study was to evaluate the influence of aggregation of yak (Bos grunniens) embryos produced by heterospecific SCNT using enucleated oocytes from an animal from the same genus Bos taurus. As control homospecific SCNT of Bos taurus, parthenogenic zone-free embryos and IVF embryos were used. Cumulus-oocyte complexes were recovered from bovine slaughterhouse ovaries by follicular aspiration. The cumulus-oocyte complexes were matured in tissue culture medium 199 containing 10% fetal bovine serum, 10 μg mL−1 FSH, 0.3 mM sodium pyruvate, 100 mM cysteamine, and 2% antibiotic-antimycotic for 22 h, at 6.5% CO2 in humidified air and 38.5°C. After denudation, mature oocytes were stripped of the zona pellucida using a protease and then enucleated by micromanipulation. Staining was performed with Hoechst 33342 to observe MII. Enucleated oocytes were placed in phytohemagglutinin to induce adherence with the donor cell followed by electrofusion. All reconstituted embryos were activated using ionomcine. This was followed by a treatment with 6-dimethylaminopurine for 3 h. Zona-free reconstituted cloned embryos were cultured in the wells of the well system, placing one (1×) or two (2×) per microwell, in synthetic oviductal fluid medium. The experimental groups were parthenogenic zone free; IVF; reconstituted embryos bull fibroblast-enucleated oocyte from cow (BC1×); reconstituted embryos yak fibroblast-enucleated oocyte from cow (YC1×); and reconstituted embryos aggregated yak fibroblast-enucleated oocyte from cow (YC2×). In all experimental groups, cleavage of at least one embryo in the wells and blastocyst formation at Day 7 were assessed. The effect of cloned embryo aggregation on blastocyst rates was analysed using Fisher exact tests (GraphPad Prisma 8), and results are shown on Table 1. Results demonstrated that aggregation of two SCNT heterospecific embryos increased the blastocyst formation rate of yak (P < 0.05). In conclusion aggregation in yak heterospecific SCNT embryos from species of the same genus (Bos) can improve development to blastocyst.


Table 1.  Aggregation of yak heterospecific somatic cell nuclear transfer embryos
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