Abstract
Simple SummaryOxygen plays a vital role in the development of early embryos, no matter whether it is too high or low, it will adversely affect the early embryo development, but the mechanisms involved in these effects are still unclear. RNA-seq was performed to compare 8-cell-stage and blastocyst-stage goat embryos under hypoxic and normoxic conditions, the mRNA expression mechanisms of 8-cell- and blastocyst-stage embryos were systematically analyzed under hypoxic and normoxic conditions. Functional enrichment analysis indicated that these differentially expressed genes (DEGs) were mainly related to biological processes and function regulation. In conclusion, we can infer that oxidative stress regulates early embryo development by affecting the expression of zygotic genes and transcription factors, and those stress genes play a potential role in adaptation to normoxic environments in goat embryos.It has been reported that hypoxic environments were more suitable for the in vitro development of mammalian embryos, but the underlying mechanisms were still unclear. In the present study, RNA-seq was performed to compare 8-cell-stage and blastocyst-stage goat embryos under hypoxic and normoxic conditions; zygotes were checked at 72 and 168 h to 8-cell stage (L8C) and blastocyst stage (LM) in hypoxic conditions and 8-cell stage (H8C) and blastocyst stage (HM) in normoxic conditions. In the H8C and L8C groups, 399 DEGs were identified, including 348 up- and 51 down-regulated DEGs. In the HM and LM groups, 1710 DEGs were identified, including 1516 up- and 194 down-regulated DEGs. The expression levels of zygotic genes, transcription factors, and maternal genes, such as WEE2, GDF9, HSP70.1, BTG4, and UBE2S showed significant changes. Functional enrichment analysis indicated that these DEGs were mainly related to biological processes and function regulation. In addition, combined with the pathway–gene interaction network and protein–protein interaction network, twenty-two of the hub genes were identified and they are mainly involved in energy metabolism, immune stress response, cell cycle, receptor binding, and signal transduction pathways. The present study provides comprehensive insights into the effects of oxidative stress on early embryo development in goats.
Highlights
IntroductionGoats are widely distributed and diverse domestic animals because of their high social value and short gestation period; they have become an important species in current biological research and applications [1]
We aimed to identify critical functional genes and pathways involved in goat embryos the oxidative stress adaptation
The results showed that the cleavage rates (87.30 ± 4.39 vs. 86.67 ± 5.77) were not significantly different under hypoxic conditions compared to normoxic conditions
Summary
Goats are widely distributed and diverse domestic animals because of their high social value and short gestation period; they have become an important species in current biological research and applications [1]. Assisted reproductive technologies such as superovulation, in vitro fertilization, in vitro embryo culture, and embryo transfer have been widely promoted and applied in goats and sheep, and they play a significant role in improving livestock productivity [2]. The study of goat embryos in vitro has laid the foundation for human-assisted reproductive technology, which is of great significance for the promotion of biological research
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