• Clinical and Experimental Reproductive Medicine
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• v.31 no.1
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• pp.1-7
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• 2004

연구 목적: 본 연구의 목적은 마우스에서 배양액의 용량이 배반포 배 형성과 세포수에 미치는 영향을 조사하기 위하여 실시하였다. 연구 재료 및 방법: $3{\sim}4$주령 ICR 암마우스에게 48시간 간격으로 5 IU PMSG와 hCG 주사 후 (hCG 주사 후 수컷과 동숙) $46{\sim}50$시간에 난관으로부터 총 138개의 2-세포기 배를 회수하여 2 ml (group I) 또는 $50{\mu}l$ (group II)의 배양액 (Dulbecco's Modified Eagle Medium + 20% human follicular fluid)에서 72시간 동안 배반포기까지 배양하였다. 배반포 배는 zona-intact (ZiB)와 zona-escape (ZeB)로 등급을 구분하고 나서, propidium iodide와 bisbenzimide를 이용한 differential staining 방법으로 염색하여 평균 세포수, 내세포괴(ICM) 세포수, 영양배엽(TE) 세포수, 총 세포수에 대한 ICM의 비율 (%ICM) 및 ICM:TE 비율을 조사하였다. 결과에 대한 유의성 검정은 $X^2$ test와 t-test를 이용하였으며, p<0.05일 때 통계적인 차이가 있는 것으로 하였다. 결 과: Group I과 II에서, 총 배반포 ($62.3{\pm}20.7%$ vs. $63.8{\pm}22.9%$), ZiB ($31.9{\pm}24.0%$ vs. $30.4{\pm}18.2%$)와 ZeB 형성율 ($30.4{\pm}20.8%$ vs. $33.3{\pm}22.3%$)은 차이가 없었다. 87개의 배반포 배를 염색 시도하였는데, 명확하게 differential staining된 41개의 배반포 배만을 대상으로 세포수를 조사하였다. 평균 세포수 ($61.6{\pm}19.5$ vs. $63.7{\pm}26.8$), ICM 세포수 ($13.0{\pm}10.6$ vs. $12.8{\pm}10.5$), TE 세포수 ($49.0{\pm}19.0$ vs. $47.8{\pm}18.7$), %ICM ($21.0{\pm}12.6%$ vs. $21.1{\pm}13.2%$) 및 ICM:TE 비율 (1:$3.77{\pm}4.9$ vs. 1:$3.72{\pm}4.8$)에서도 group I과 II에서 차이가 없었다. 결 론: 마우스에서 배 발생 능력의 척도로 쓰이는 배반포 배 형성율 배반포 배의 등급 세포수 및 %ICM 등이 20% 난포액을 첨가한 MEM 배양액의 용량에 따라 영향을 받지 않았다.

• Proceedings of the Korean Society of Developmental Biology Conference
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• 2003.10a
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• pp.118-118
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• 2003

The aim of this study was to investigate the effect of glucose on embryonic development of mouse embryos. Two cell embryos were recovered from ICR female mice(3-4weeks) at 46~50 hrs after hCG 5 IU injection (mated just after hCG injection) and cultured in 50 $\mu m$ DMEM droplets supplemented with nothing (control: n=46), glucose 0.5mM (Group A; n=46) or glucose 3.15 mM(Group B; n=46) under mineral oil. All experimental media were supplemented with 20% human follicular fluid. Total blastocyst formation rates was lower (NS) in glucose groups (group A: 52.2% : B. 47.8%) than control group (60.9%). ZiB rates was the highest (P<0.05) in control (47.8%) than those in group A (21.7%) and B (28.3%). ZeB rates were the highest (NS) in group A (30.4%) than those in control (13.0%) and group B (19.6%). Blastocysts, cultured in group B (50.5), had the highest (NS) mean cell number compared with the others (control: 39.2 ; group A: (45.6). The ICM proportion (% ICM of total cells) in blastocysts cultured in group A (20.6%) was the highest (NS) than those of other tested groups (control: 15.2 ; group B: 13.9%). This study shows that a low dose of glucose added to culture medium increases the ICM proportion of blastocysts in mice.

• Korean Journal of Agricultural Science
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• v.40 no.4
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• pp.353-358
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• 2013

To demonstrate that follistatin treatment enhances the efficiency of nuclear transfer (SCNT), cell allocation and preimplantational development were determined in bovine SCNT embryos in the present study. Treatment of activated SCNT embryos with 10 ng/ml follistatin significantly increased the proportion of blastocyst development compared to untreated SCNT embryos. In addition, an increase in trophectoderm (TE) cell numbers and relatively higher proportion of TE cells to total cells were observed, but the number of inner cell mass (ICM) cell and total cell numbers were not changed (P < 0.05). No significant effect of other doses of follistatin was observed for the above endpoints. However, treatment with 1 and 10 ng/ml follistatin reduced the proportion of nuclear transfer blastocysts with an ICM ratio of > 60% relative to untreated nuclear transfer blastocysts at Day 7. No significant effect of follistatin treatment on proportions of nuclear transfer blastocysts with ICM ratio of 20-40% or 40-60% was observed. Taken together, these results suggested that follistatin can be used to increase developmental competence of SCNT embryos in terms of cell allocation, particularly TE cells, during preimplantation stages, subsequently enhancing placentation and birth of live offspring.

• Proceedings of the KSAR Conference
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• 2001.03a
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• pp.20-20
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• 2001

It has been reported that cloning cattle is inefficient. One of the problems was placental abnormality, finally resulting in fetal mortality after transfer of nuclear transfer (NT) bovine embryos. This study was focused on the allocations of embryonic cells to the inner cell mass (ICM) or to the trophectoderm(TE) in NT bovine blastocysts. Somatic cells were derived from a Day 45 fetus of gestation, individually transferred into enucleated oocytes and developed to the blastocyst stage in vitro. Differential staining was used to assess the qualify of blastocysts derived from NT, IVF and in vivo. Development rate of NT embryos to blastocysts (25.0%, 41/164) was similar to that of IVF embryos (28.7%, 49/171). The total cell number of NT blastocysts (101.3$\pm$45.9) was not different compared with that of IVF embryos (107.9$\pm$34.2, P>0.05), but was lower than in vivo embryos (122.5$\pm$21.6, P<0.05). Ratio of ICM/total cells was higher in NT embryos (51.6$\pm$ 18.6%) than in IVF and in vivo embryos (42.3$\pm$ 15.3% and 34.9$\pm$8.9%, respectively) (P<0.05). Most IVF (56.8%, 25/44) and in vivo blastocysts(80.8%, 21/26) was distributed in the proportion of ICM/total cells ranging from 20 to 40% group. However, most NT blastocysts was biased in the 40-60%(34.1%, 15/44) and >60% (31.8%, 14/44) groups. Our findings suggest that placental abnormalities or early fetal losses in the present cloning system may be due to aberrant allocation of NT embryos to the ICM cells.

• Proceedings of the KSAR Conference
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• 2003.06a
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• pp.66-66
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• 2003

The aim of this study was to investigate effect of different energy substrates on embryonic development of mouse embryos. Two cell embryos, recovered from ICR female mice (4 weeks old) at 44~52hrs after hCG injection (mated just after hCG injection), were cultured fur 72 hrs in the medium (MEM) supplemented with the three different energy substrates [glucose(G), pyruvate(P) and lactate(L)] and combinations (Control: 0 mM: group A: G 0.5; B: G 3.15; C: P 0.1; D: P 0.32; E: L 5.87; F: L 10.5; G: G0.5+P0.32+L10.5; H: G3.15+P0.1+L5.87; I: G0.5+P0.1+L5.87; J: G3.15+P0.32+L10.5). Blastocysts were stained differentially using PI and bisbenzimide. The 69.8% of the 2 cell embryos cultured in group F were developed the blastocysts. This was the highest (NS) than all other tested groups (44.2~62.8%). Blastocysts, cultured in the group E (60.4$\pm$26.9) and G (58.1$\pm$26.3), had significantly(p<0.05: group E vs. control, B, C, D; G vs. control, A, B, C, D) higher mean cell number compared with the other (42.6$\pm$25.8 ~ 55.2$\pm$31.3) and control (42.6$\pm$25.8) was at the basal level. The proportion of ICM (% ICM of total cells) in blastocysts cultured in group B (26.0$\pm$9.5%), C (29.6$\pm$22.8%) and J (26.0$\pm$11.8%) were significantly higher (p<0.05: control vs. group B, C, J: A vs. C, J; C vs. D, E, I) than those of other tested groups (15.0$\pm$10.6 ~ 23.8$\pm$ 12.9％) and control (15.0$\pm$10.6％) was at the basal level. These results showed that energy substrates supported the development of mouse 2 cell embryos, especially with greater embryo development in high dose of lactate added to media.

• Clinical and Experimental Reproductive Medicine
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• v.24 no.1
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• pp.13-20
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• 1997

The objective of this study was to determine the effect of EGF on the preimplantation development of mouse IVF embryos and their ICM and TE cell number. And also, we examined the expression of EGF-R protein on embryonic development by indirect immunofluorescence. The results obtained in these experiments were summarized as follows; Group culture (5 embryos/ 25 ${\mu}l$) showed more improved development rate to blastocyst than singly culture. This inferior development of singly cultured 2-cell embryos improved by the addition of EGF. Especially, 2-cell embryos cultured singly in 10 ng/ml of EGF (62.4%) indicated significant difference in development to blastocyst compared with control group (47.9%). Also, cell number of ICM and TE by differential labelling showed the increased pattern in the EGF treatment group. The stimulating effect of EGF with the development level was significantly increased after 4-cell stage (p<0.05). ICM proportion also showed the increased pattern with the developmental level in the EGF treatment group. In addition, expression of EGF-R by indirect immunofluorescence detected after 4-cell stage. Therefore, EGF could stimulate preimplantation mouse embryo development by binding with expressed EGE-R after 4-cell stage and produce the more increased ICM and TE cell number of blastocyst.

• Proceedings of the KSAR Conference
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• 2001.03a
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• pp.68-68
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• 2001

Blastocyst formation, consisting of the inner cell mass (ICM) and trophectoderm (TE), is the first differentiation process during embryonic development in mammals. It has been hypothesized that the proportion of ICM to TE in the blastocyst may be crucial for subsequent developmental competence of early embryos, which it may be expressed as a sensitive indicator for evaluating in vitro systems. In this study ICM/total cell ratio of nuclear transfer (NT) embryos was compared with IVF-derived and in vivo embryos. Somatic cell nuclei obtained from a fetus at Day 40 of gestation were transferred into the enucleated oocyte and then cultured in NCSU 23 medium for 6 days as previously described (Koo et al., Biol. Reprod. 2000; 63:986-992). ICM and TE cells of blastocysts were determined by using a differential staining method (Han et al., Biol. Reprod. 1999; 60:1110-1113). Development rate (9.8$\pm$2.5%, 23/225) to the blastocyst stage of NT embryos was lower than IVF embryos (23.8$\pm$2.7%, 53/223). Thus, a difference was detected in the in vitro developmental rate to blastocyst stage between NT and IVF-derived embryos (P<0.05). In the next experiment, we investigated ICM and TE nuclei to assess the quality of blastocysts that produced by NT, IVF and in vivo, respectively. NT blastocysts (27.6$\pm$8.3) showed a smaller total cell number than IVF-derived (42.6$\pm$17.4) and in vivo embryos (283.9$\pm$103.5) (P<0.05). Ratios of ICM/total cells in NT, IVF and in vivo blastocysts were 15.1$\pm$ 18.6% (n=56), 12.3$\pm$9.2% (n=57) and 30.4$\pm$6.8% (n=40), respectively. Individual blastocysts for the ratio of ICM/total cells were assigned to 3 groups (I; <20%, II; 20 to 40% and III;>40%). As the results, most in vivo blastocysts (97.5%, 39/40) were distributed into group II while most NT (78.6%, 44/56) and IVF-derived blastocysts (82.5%, 47/57) were allocated to group I. Thus, our data show that NT or IVF-derived embryos have aberrant morphology during early development in vitro systems, suggesting that these anomalies may result in developmental failures of the NT embryos to term.

• Clinical and Experimental Reproductive Medicine
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• v.23 no.3
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• pp.303-310
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• 1996

The objective of this study was to examine the effect of embryos development following IVF of in vitro-matured porcine oocytes treated with epidermal growth factor (EGF). When cumulus-enclosed oocytes were incubated in TCM 199 medium supplemented with (1) control group, (2) 10 ng/ml EGF, (3) 10${\mu}g$ml FSH and 10% FBS, or (4) 10 ng/ml EGF, 10 ${\mu}g$/ml FSH, and 10% FBS for 42 hr, the late developmental rates on NCSU (0.4% BSA) medium after fertilization were higher in (3) and (4) groups (13.4, 18.3%) than in (2) group (5.2%, p < 0.005), but (2) group is significantly higher than the development to blastocyst of oocytes of (1) group (1.2%). Also, when the cell number of total, ICM, and TE of those blastocysts at 6 day produced in vitro was investigated by double staining (PI and bisbenzimide), total cell number of (4) group (58.80${\pm}$ 11.90) was higher than that of (2) and (3) groups (42.17${\pm}$9.97, 49.07${\pm}$9.77, P < 0.05). ICM cell number of blastocysts of (4) group (11.69${\pm}$5.56) was higher than that of (2) and (3) groups (5.00${\pm}$4.24, 6.77${\pm}$4. 92, P < 0.05). Furthermore, the proportion of ICM in (4) group (19.0${\pm}$1.6) was higher than that in (2) and (3) groups (11.1${\pm}$3.0, 12. 7${\pm}$2.1). These results suggested that in vitromatured porcine oocytes treated with EGF alone can be developed to blastocyst, but high proportion on the development to blastocyst and number of total cell and ICM in blastocyst can be obtained when supplemented with additional FSH and FBS.

• Proceedings of the Korean Society of Embryo Transfer Conference
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• 2003.10a
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• pp.118-118
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• 2003

• Journal of Embryo Transfer
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• v.25 no.3
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• pp.179-187
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• 2010

Embryonic compaction is essential for normal preimplantation development in mammals. The present study was to investigate the effects of compaction patterns on developmental competence of pig embryos. The proportion of blastocyst formation derived from compacted morula was higher than those of compacting and pre-compacting morula (P<0.01). Nuclei numbers of inner cell mass (ICM), trophectoderm (TE), and total of blastocysts derived from compacted group were also superior to those of compacting and pre-compacting groups (P<0.05). Then, compaction patterns, developmental ability and structural integrity were compared between mono- and poly-spermic embryos. The rate of compacted morula in mono-spermic embryos was higher than that of poly-spermic embryos (P<0.05). Especially, the rate of blastocyst formation derived from compacted embryos in mono-spermic embryo group was higher than that of poly-spermic embryo group (P<0.05), although no difference was detected between the two groups in the structural integrity. Finally, we confirmed that beta-catenin was differentially expressed according to compaction patterns in morula and blastocyst stage embryos. In conclusion, our results suggest that the compaction patterns during preimplantation development play a direct role in developmetal competence and quality of pig embryos.