During the ovary preservation in low temperature, the cumulus oocyte complexes(COCs) lose their developmental competences after in vitro fertilization. We used phosphate-buffered saline (PBS) as a basic solutions of at various temperatures (25, 15 or 5 ℃) and supplemented them with 1mM glucose and 0.5mM glutamine as a source of carbohydrate metabolites. After recovery of COCs and in vitro fertilization, a significantly higher number of oocytes developed into blastocysts. The developmental competence of embryos that were originated from ovaries preserved at 15 ℃ was increased compared to those of 25 or 5 ℃. The maturation rate of oocytes was not differed between 24 and 36 h at 15 ℃ but showed lower than control group (71% versus 78%). In vitro-fertilized oocytes from ovaries stored at 25 ℃ for 24 h or at 5 ℃ for 24 h had a significantly decreased developmental potentials, but at 15 ℃ did not (27% versus 29% of blastocysts to develop into day 8). With these results, bovine ovaries can be preserved at 15 ℃ for 36 h without decreasing developmental capacity of in vitro-fertilized oocyte at least to the blastocyst stage. This information provides valuable information of preserving ovaries for embryo transfer or in vitro embryo production.

The aim of this study was to evaluate the changes of protein patterns in granulosa cells and corpus luteum in ovaries during the estrus cycle in cows. The estrus cycle was devided into five steps of follicular, ovulatory, early-luteal, mid-luteal and late-luteal phases. In results, 61 spots of total 85 spots were repeated on follicular phase and 51 spots of total 114 spots were repeated on ovulatory phase. The 40 spots of total 129 spots were repeated on early-luteal phase and 49 spots of total 104 spots were repeated on mid-luteal phase. Also 41 spots of total 60 spots were repeated on late-luteal phase. On the other hands, the 16 spots were indicated difference in follicular phase and ovulation phase had a difference 10 spots. It was showed difference No. 103 spot in ovulation phase, No. 135 spot in early-luteal phase and No. 175 and 176 spots in mid-luteal phase. Also, the 11 spots were expressed specifically in mid-luteal phase and No. 178 and 179 spots were difference of expression in late-luteal phase. We confirmed that there were 7 spots for ovulation, 4 spots for luteinization and 2 spots for luteolysis. Spot No. 89～93 in ovulation phase were transferrin, and spot No.94～98 were HSP60. Spot No. 103 was Dusty PK, spot No. 135 was OGDC- E2, and spot No. 175 and 176 were Rab GDI beta from luteinization. Spot No. 178 and 179 in luteolysis were vimentin. This results suggest that will be help to basic data about infertility.

본 연구는 도축되는 소 난소의 효율적인 이용을 위해서 도축장으로부터 실험실로 운반되는 난소 수송 온도에 따른 체외 수정란 생산 효율을 조사하고자 실시되었다. 도축장의 HACCP 적용으로 도축장 출입이 불가능하므로 위탁하여 난소를 공급받게 되어 취급자의 부주의로 적절한 온도 유지가 되지 않는 경우가 많다. 특히 겨울철에는 더 많은 주의가 필요하다. 따라서 본 실험에서는 겨울철 난소수송 온도에 따라서 4처리 그룹, 즉 (T1), (T2), (T3) 그리고

본 실험은 촉진 및 호르몬 측정으로는 알기 힘든 난소의 정상 혹은 병리학적 형태 및 변화를 알아보기 위하여 실시하였다. 실험에서 도살장으로부터 채취된 난소 100개를 수침법으로 초음파 사진을 찍고 그 실제 단면과 비교하였다. 그리고, 홀스타인 50두에서 직장 벽을 통해 난소를 초음파로 관찰하여 난소의 정상 상태 및 병적 상태를 조사하였다. 이 기초 실험을 바탕으로 하여 홀스타인 소 1두를 과배란 처리하여 42일간 난소의 형태 및 변화를 직장 벽을 통해