Chromosome abnormalities in the embryos of domestic animals are mostly eliminated during development. De novo chromosome abnormalities in the embryos of domestic animals have been detected in a larger proportion of embryos produced by in vitro fertilization and somatic cell nuclear transfer than in those produced by natural mating or artificial insemination. The increased incidence of abnormalities in embryos produced in vitro provides evidence for an influence of the embryo production procedures on chromosome stability. Research strategies involving cytogenetics, molecular biology and reproductive biotechnologies hold the promise of yielding insight into the mechanisms underlying chromosome instability in embryos and the impact of the in vitro environment on the chromosome make-up of embryos.
Telomeres are specialized structures that cap the ends of chromosomes and help to maintain genomic integrity and stability. Telomeres undergo dynamic changes during embryo development, which also represents an important stage for telomere elongation through telomerase enzyme activity. The objectives of this study were to examine changes in telomere length and telomerase activity from the early oocyte, through to the blastocysts stage of development, and the expression of factors with the potential to directly regulate telomeres. In vitro-produced bovine embryos were lysed and analysed for either relative telomere length, or telomerase activity using quantitative real-time PCR protocols. Our results reveal that relative telomere length is the shortest in the presumptive zygote stage of development and gradually increases to the blastocyst stage. We also demonstrate that differences between the mean telomere lengths throughout these stages are statistically significant (p < 0.05). Telomerase activity in the stages examined appears relatively constant until the blastocyst, where the highest level of activity is detected, leading to a significant difference in telomerase activity across embryonic stages (p < 0.005). Bovine telomerase RNA component (bTERC) expression levels were highest in the blastocyst, TERF1 transcripts showed little change in expression, and TERF2 expression decreased in the blastocysts (p < 0.05). Our results suggest that a complex integration of telomere-related RNA and proteins influences the regulatory mechanisms involved in 'reprogramming' of telomeres during early embryonic stages.
Enucleation of a recipient oocyte is an important essential process in the procedure of somatic cell nuclear transfer (SCNT). The present study investigated a method for the improvement of enucleation efficiency. Oocytes were denuded of cumulus cells before the completion of nuclear maturation (pre-denuded) after 12 h of culture at MI stage and subsequently cultured for additional 6 h until the completion of nuclear maturation and extrusion of the first polar body (PB1). The extrusion rate of PB1 was not significantly different in the pre-denuded oocyte group, compared with control oocyte group matured for 18 h. However, the number of oocytes showing the metaphase II (MII) located just underneath the PB1 was significantly higher (p<0.05) in the pre-denuded oocyte group than those in control oocyte group. To test the effect of pre-denuding on the enucleation rate and developmental potential of embryos to blastocyst stage, subsequent somatic cell nuclear transfer comparisons were made with three different methods of enucleation at MII stage using vital dyes (demicoline and Hoescht) or the PB1 (blind enucleation) to localize the chromosome plate. Enucleation rate of the oocytes with demicoline, Hoechst and pre-denuding enucleation groups were significantly higher (p<0.05) than those of blind enucleation groups. However, cleavage rate to two-cell stage and, developmental rate to blastocyst and hatched blastocyst stage, the mean numbers of total and ICM cells in the SCNT embryos with Hoechst enucleation groups were significantly decreased (p<0.05), compared to those of blind, demicoline and pre-denuding enucleation groups. Moreover, the level of telomerase activity was also significantly (p<0.05) decreased in SCNT blastocysts of Hoechst enucleation group, compared to those of blind, demicoline and pre-denuding enucleation groups. Taken together, pre-denuding enucleation group using pre-denuded oocytes was a useful and simple enucleation method for bovine SCNT embryos.
With the advancement of assisted reproductive biotechnologies, preselecting the sex of offspring has become an important goal for cattle and other livestock breeding as well as for research. The aim of this study was to investigate the feasibility of producing enriched pools of X- or Y-chromosome-bearing sperm by vertical swim-up through a long, narrow column. Sperm recovered from the top portion of the column was predominantly Y-bearing (60%, p < 0.05), which were capable of fertilizing matured oocytes and produce significantly more male embryos compared with standard swim-up protocol.
Two methods for preparing embryos for autoradiographic study of newly synthesized nucleic acids are described and compared. The first method consists of rapidly fixing radiolabeled embryos with acetic acid:methanol, spreading them on glass slides and exposing them for 8 days with a photographic emulsion. The second method consists of fixing, embedding in resin, and sectioning the embryos before their exposure with the emulsion for 3 weeks. Both techniques have many applications in studies of early embryonic activity, but the spread technique is very sensitive, simpler, and faster.
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