R. Tayfur Tecirlioglu scite author profile

While the expression and epigenetic differences of imprinted genes have been extensively characterized in the mouse and human, little is known about imprinted genes in livestock species. In the current study, eight genes that are imprinted in the human or mouse were investigated in preimplantation bovine embryos. Amplified cDNA was created from three single metaphase II (MII) oocytes or embryos throughout preimplantation development. The imprinted genes Dlk1 and Mest (isoform 1) had no detectable transcripts during preimplantation development. Gnas and Grb10 were expressed in most embryos from the 2-cell to blastocyst stages of development. Mest (isoform 2) was expressed in all oocytes and embryos, except for one blastocyst sample. Ndn and Xist were expressed from the 8-16-cell stage (maternal-to-zygotic transition, MZT) onwards. Sgce was expressed until the MZT, and Nnat in both early (alpha form) and late (beta form) stage embryos. The paternally imprinted genes Gnas, Grb10, and Xist were expressed in both in vitro-fertilized (IVF) and parthenogenetically activated (PA) blastocysts as expected. Of the four maternally imprinted genes expressed in the blastocyst (Mest, Ndn, Nnat, and Sgce), Nnat alone showed differential mRNA expression between IVF and PA blastocysts, suggesting imprinting by this stage of development. In conclusion, seven of the eight genes investigated showed mRNA expression during preimplantation development, indicating a potential role during early development. Also significant is the observation that Nnat is imprinted by the blastocyst stage of development although the other genes are not, indicating a temporal imprinting program.

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Interspecies somatic cell nuclear transfer and preliminary data for horse-cow/mouse iSCNT

Tecirlioglu

Guo

Trounson

2006

Stem Cell Rev

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Nuclear transfer (NT) experiments in mammals have demonstrated that adult cells are genetically equivalent to early embryonic cells and the reversal of the differentiated state of a cell to another that has characteristics of the undifferentiated embryonic state can be defined as nuclear reprogramming. The feasibility of interspecies somatic cell NT (iSCNT) has been demonstrated by blastocyst formation and the production of offspring in a number of studies. Embryo and oocyte availability is a major limiting factor in conducting NT to obtain, blastocysts for both reproductive NT studies in genetically endangered animals and in embryonic stem cell derivation for species such as the horse and human. One approach to generate new embryonic stem cells in human as disease models, or in species where embryos and oocytes are not widely available, is to use oocytes from another species. Utilization of oocytes for recipient cytoplasts from other species that are accessible and abundant, such as the cow and rabbit, would greatly benefit ongoing research on reprogramming and stem cell sciences. The use of iSCNT is an exciting possibility for species with limited availability of oocytes as well as for endangered or exotic species where assisted reproduction is needed. However, the mechanisms involved in nuclear reprogramming by the oocyte are still unknown and the extent of the "universality" of ooplasmic reprogramming of development remains under investigation.

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Highly efficient and reliable chemically assisted enucleation method for handmade cloning in cattle

Vajta¹,

Maddox-Hyttel²,

Skou³

et al. 2005

Reprod. Fertil. Dev.

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The purpose of the present study was to find an efficient and reliable chemically assisted procedure for enucleation related to the handmade cloning (HMC) technique. After in vitro maturation oocytes were incubated in 0.5 microg mL(-1) demecolcine for 2 h. Subsequently, zonae pellucidae were digested with pronase, and one-third of the cytoplasm connected to an extrusion cone was removed by hand using a microblade. The remaining two-thirds were used as recipients for HMC, and reconstructed and activated embryos were cultured for 7 days. The time-dependent manner of the development of extrusion cones, the efficiency (oriented bisection per oocyte; 94%), reliability (success per attempted enucleation; 98%), and the blastocyst per reconstructed embryo rates (48%) were measured. Ultrastructural analyses demonstrated that demecolcine treatment resulted in disoriented and haphazardly orientated microtubules. The general ultrastructure of the oocyte organelles, however, appeared to be unaltered by the treatments. Considering that no oocyte selection based on polar body presence was performed, this system seems to be more efficient and reliable than any other enucleation method. Moreover, expensive equipment (inverted fluorescence microscope) and a potentially harmful step (staining and ultraviolet illumination) can be eliminated from the HMC procedure without compromising the high in vitro efficiency.

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