• Journal of Animal Reproduction and Biotechnology
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• v.37 no.2
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• pp.121-129
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• 2022

Heterogeneous nuclear ribonucleoprotein A2/B1 (hnRNPA2/B1) is an N6-methyladenosine (m⁶A) RNA modification regulator and a key determinant of prem-RNA processing, mRNA metabolism and transportation in cells. Currently, m⁶A reader proteins such as hnRNPA2/B1 and YTHDF2 has functional roles in mice embryo. However, the role of hnRNPA2/B1 in porcine embryogenic development are unclear. Here, we investigated the developmental competence and mRNA expression levels in porcine parthenogenetic embryos after hnRNPA2/B1 knock-down. HhnRNPA2/B1 was localized in the nucleus during subsequent embryonic development since zygote stage. After hnRNPA2/B1 knock-down using double stranded RNA injection, blastocyst formation rate decreased than that in the control group. Moreover, hnRNPA2/B1 knock-down embryos show developmental delay after compaction. In blastocyste stage, total cell number was decreased. Interestingly, gene expression patterns revealed that transcription of Pou5f1, Sox2, TRFP2C, Cdx2 and PARD6B decreased without changing the junction protein, ZO1, OCLN, and CDH1. Thus, hnRNPA2/B1 is necessary for porcine early embryo development by regulating gene expression through epigenetic RNA modification.

• Proceedings of the KSAR Conference
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• 2004.06a
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• pp.276-276
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• 2004

Pluripotent stem cells have been generated from two embryonic sources. ES cells are generated from ICM of blastocyst stage embryos, and embryonic germ (EG) cells are generated from primordial germ cells (PGCs). Both ES and EG cells are pluripotent and present important characteristics such as high levels of alkaline phosphatase (AP) activity, multi-cellular colony formation, normal and stable karyotypes, continuously passaging ability, and the capability of differentiation into all three embryonic germ layers. (omitted)

• Korean Journal of Animal Reproduction
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• v.13 no.2
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• pp.63-69
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• 1989

Eight-cell mouse embryos equilibrated with vitrification solution(VS3), consisting of glycerol and polyethlene glycol, were plunged directly into liquid nitrogen. The embryos were cryopreserved by vitrification without intra- and extracellular ice formation. After the vitrified embryos were warmed at 4$^{\circ}C$, sucrose dilution procedures were examined and the survival embryos were transferred to recipients after 48h incubation in vitro. The results were obtained as follows. 1. Mouse embryos equilibrated with VS3 were diluted with 1.5m sucrose-HB 1 solution, 0.5M sucrose-HB1 solution for 5min at room temperature, respectively. The proportion of vitrified-warmed embryos developed to blastocyst(85.7%) was as high as that of the embryos diluted with 1.04M sucrose-HB1 solution at 4$^{\circ}C$(85.5%). 2. Normal live youngs were obtained in 53.9%(55/102) of the vitrified-warmed embryos after tranfer to pseudopregnant recipients.

• Proceedings of the Korean Society of Embryo Transfer Conference
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• 2002.11a
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• pp.3-7
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• 2002

In vitro embryo culture techniques provide significant contributions not only for a basic research of fertilization and early embryogenesis, but also for a low cost mass production of bovine embryos for transfer, embryo diagnosis, nuclear cloning and the production of transgenic cows. This presentation introduces newly developed serum-free media (IVD101 and IVMD101) that are effective far high yields of transferable embryos of excellent quality from in vitro-matured and fertilized oocytes. Both serum-free media are superior to a conventional serum-containing medium on the increased rates of blastocyst formation, post-thaw embryo viability, and pregnancy after transfer. Furthermore, reduced risks of calf mortality and large calf syndrome are also observed for the serum-free-derived embryos. Serum-derived embryos contain a large number of lipid droplets and immature mitochondria in their cytoplasm that may account for the lower production of transferable embryos and poor embryo quality.

• Journal of Veterinary Clinics
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• v.2 no.1
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• pp.121-131
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• 1985

Mouse embryos of 8-cell stage and compacted morulae(approximately 16 cells) containing different number of blastomeres were bisected and cultured in vitro to determine the developmental potentials of the divided embryos compared with those of unmanipulated control embryos. The results were as follows. 1. Micromanipulation was performed successfully by means of a simple manipulator which holds a fine glass, needle, without the use of any micro-instruments for support. 2. The percentage of bisected morulae with 7-9 blastomeres that developed to eu-blastocyst was 94.1% while only 64.8% of the bisected 8-cell embryos with 4 blastomeres developed to eublastocysts (p<0.05). 3. The percentage of eu-blastocysts decreased, while that of pseudoblastocysts and trophectodermal vesicle increased as the number of blastomeres decreased in the bisected embryos of the two stages. 4. The time of the blastocoele re-formation of the bisected and control embryos was not significantly different in morulae stage embryos, but it was significantly delayed in the 8-cell stage embryos (Eu-B, Pseudo-B) compared with control embryos (P<0.01, P<0.05 respectively).

• Proceedings of the KSAR Conference
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• 2001.10a
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• pp.55-55
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• 2001

Monosaccaride hexose, may have different role in embryo development of different species. Glucose, fructose and galactose are glycolysible substrates but their effect on embryo development is not identical. Glucose has negative effect to early embryonic stage in several species whereas it is inevitable after compaction. For fructose, it can support blastocyst formation in hamster, mouse and bovine embryo. Effect of galactose is known as detrimental even at a low concentration while glucose has adverse effect only at high concentration in hamster. (omitted)

• Animal cells and systems
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• v.10 no.1
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• pp.41-47
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• 2006

Development of the mammalian pre-implantation embryos has unique features, such as a slow and unsynchronized cell division, compaction, and eventual formation of blastocysts with inner cell mass and trophectoderm. In order to have a clue on molecular mechanisms that reside in mouse early development, we suppressed expression of early embryo-specific genes with RNAi and observed their development in vitro. We observed developmental defects in embryos microinjected with dsRNAs for Oct4 or Nanog among the tested genes. Careful examinations revealed that development of the most of the Oct4- or Nanog-suppressed embryos were arrested at the morula stage. These results suggest that the Oct4 and Nanog activities are also required for embryogenesis earlier than the blastocyst stage.

• Journal of Embryo Transfer
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• v.29 no.2
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• pp.127-132
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• 2014

This study was carried out to investigate the effects of tissue inhibitor of matalloproteinase-1 (TIMP-1), Activin A and Heparin binding epidermal growth factor (HB-EGF) on in vitro production of bovine embryos. In experiment 1, presumptive zygotes were cultured in the medium supplemented with TIMP-1 ($0.5{\mu}g/ml$), Activin A (100 ng/ml), or HB-EGF (100 ng/ml) at $39^{\circ}C$ in a humidified atmosphere of 5% (v/v) $CO_2$, 5% (v/v) $O_2$ and 90% (v/v) $N_2$. In experiment 2, TIMP-1 + HB-EGF or Activin A + HB-EGF combinations were supplemented in the culture medium. The developmental rate to blastocysts, hatching rate and total cell numbers of the blastocysts were evaluated in both experiments. The embryos cultured in medium without growth factor supplementation was used as control group. In experiment 1, the embryos cultured in medium supplemented with TIMP-1 and Activin A showed significantly higher developmental rate to blastocysts than those cultured with HB-EGF and control (36.9%, 34.1%, 21.2% and 23.1%, respectively) (P<0.0001). However, the hatching rate of blastocyst was significantly higher in embryos with HB-EGF than those with TIMP-1, Actvin A and Control groups (84.4%, 58.8%, 51.4% and 49.3%, respectively) (P<0.001). Total cell number per blastocyst was also significantly higher in embryos with HB-EGF group ($174.3{\pm}2.5$) than those with TIMP-1, Activin A (149.7 and 150.0, respectively) (P<0.05) and Control (119.0) (P<0.001). In experiment 2, embryos cultured with combined treatment of Activin A and HB-EGF resulted in significantly higher rates of blastocysts formation (48.0%), hatching rate (89.7%) and total cell number in blastocyst ($182.3{\pm}2.1$) than those with TIMP-1 and HB-EGF combination group (32.0%, P<0.001; 76.6%, P<0.05; $165.7{\pm}4.2$, P<0.001, respectively). Our data demonstrate that in vitro production of bovine embryos could be improved by combined supplementation of Activin A and HB-EGF in culture medium.

• Journal of Embryo Transfer
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• v.32 no.4
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• pp.287-295
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• 2017

Mitochondrial dysfunction is found in oocytes and transmitted to offspring due to maternal obesity. Treatment of obese mothers with endoplasmic reticulum (ER) stress inhibitors such as salubrinal (SAL) can reverse the mitochondrial dysfunction and result in normal embryonic development. Pig oocytes have also shown ER stress mostly in metaphase II stage. ER stress in oocytes may hinder the in vitro production of pig embryos. This study investigated the effect of ER stress inhibition by SAL treatment during in vitro maturation (IVM) of porcine oocytes at 1, 10, 50 and 100 nM concentrations. Firstly, we tested various concentrations of SAL. SAL at 10 nM showed higher (P < 0.05) developmental competence to the blastocyst stage (55.6%) after parthenogenesis (PA) than control (44.2%) while not different from other concentrations (49.2, 51.6, and 50.8% for 1, 50, and 100 nM, respectively). Secondly, we performed time-dependent treatment at 10 nM of SAL for IVM of oocytes. It revealed that treatment with SAL during 22 to 44 h of IVM significantly improved PA embryonic development to the blastocyst stage compared to control (40.5, 46.3, 51.7 and 60.2% for control, 0 to 22 h, 22 to 44 h and 0 to 44 h of IVM, respectively, P < 0.05). Glutathione (GSH) content is an indicator of cytoplasmic maturation of oocytes. Reactive oxygen species (ROS) have a harmful effect on developmental competence of oocytes. For this, we determined the intraoocyte levels of GSH and ROS after 44 h of IVM. It was found that SAL increased intraoocyte GSH level and also decreased ROS level (P < 0.05). Finally, we performed somatic cell nuclear transfer (SCNT) after treating oocytes with 10 nM SAL during IVM. SAL treatment significantly improved blastocyst formation of SCNT embryos compared to control (39.6% vs. 24.7%, P < 0.05). Our results indicate that treatment of pig oocytes with ER stress inhibitor SAL during IVM improves preimplantation development PA and cloned pig embryos by influencing cytoplasmic maturation in terms of increased GSH content and decreased ROS level in IVM pig oocytes.

• Reproductive and Developmental Biology
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• v.30 no.1
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• pp.41-45
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• 2006

Electrical treatment has been widely used for porcine oocytes activation. However, developmental rates following electrical activation of porcine oocytes is relatively inefficient compared to other domestic animals. To investigate the effects of porcine oocytes on combined activation by both chemical and electrical treatment, in-vitro matured oocytes were activated by combined cycloheximide and electrical pulses treatment. Cumulus-free oocytes were exposed with NCSU-23 medium containing cycloheximide $(10{\mu}g/ml)$ for 0, 5, 10, 20, 30 min and then activated by electrical pulse treatment and cultured in PZM-3 for 8 days. Also effects of exposure to $6.25{\mu}M$ calcium ionophore for 2 min for cumulus-free oocytes were tested. The percentage of blastocyst formation in 10 min exposure to $10{\mu}g/ml$ cycloheximide and electrical pulse treatment was significantly increased (P<0.05) than in the control group. And exposure to $6.25{\mu}M$ calcium ionophore for 2 min with $10{\mu}g/ml$ cycloheximide for 10min and electrical pulse treatment significantly increased (P<0.05) the percentage of blastocyst developmental rates than the control group. In conclusion, activation by combined cycloheximide and electrical stimulation treatment promoted the subsequent development of porcine oocytes and improved the subsequence blastocyst development.