The influence of cryopreservation of donor embryos on the in vitro developmental potential in the nuclear transplant rabbit embryos was evaluated. The embryos of 16-cell stage were collected and cryopreserved with EFS solution by vitrification method. The frozen embryos were thawed and synchronized to S and G phase of 32-cell stage. The recipient/ cytoplasms were obtained by removing the first polar body and chromosome mass from the oocytes collected by non-disruptive microsurgery procedure. The separated S and G phase blastomeres of 32-cell stage were injected into enucleated recipient cytoplasms by micromanipulation. After culture until 20 hrs post-hCG injection, the nuclear transplant oocytes were electrofused and activated by electrical stimulation. The fused nuclear transplant embryos were co-cultured with rabbit oviduct epithelial cells. After in vitro culture for 120 hrs, the nuclear transplant embryos developed to blastocyst stage were stained with Hoechst 33342 dye and their blastomeres were counted. The electrofusion rate was significantly (P<0.05) reduced in the frozen nuclear donor,compared with fresh donor nuclei as 80.0 vs 62.8% in S phase and 81.7 vs 64.8% in Gphase, respectivley. The in vitro developmental rate to blastocyst stage with the S and Gphase of fresh embryos(26.3 and 61.1%, respectively) was found significantly (P<0.05) higher, compared to the S and G]phase of frozen embryos(11.9 and 34.6%, respectively). When frozen as well as fresh donor embryos were synchronized to G phase, the in vitro developmental rate to blastocyst stage was significantly (P<0.05) higher, compared with S phase donor nuclei. The cell counts of nuclear transplant embryos developed to blastosyst stage were significantly (P<0.05) more in G phase of fresh or frozen embryos (180.1 and 125.7 cells, respectively), compared with S phase nuclear donor (145.1 and 103.7 cells, respectively). From the above results it was concluded that the rabbit embryos cryo- preserved by vitrification might be available as nuclear donor, though the developmentalpotential and cell counts of nuclear transplant rabbit embryos were decreased significantly.

The present study was conducted to investigate the influence of embryo cell stage at 18h post-fusion and oocyte preactivation on sebsequent in vitro developmental potential in the nuclear transplant rabbit embryos. The embryos of 16-cell stage were collected and synchronized to G phase of 32-cell stage. The recipient cytoplasms were obtained by removing the first polar body and chromosome rnass from the oocytes collected by non-dis-ruptive microsurgery procedure. The separated G phase blastomeres of 32-cell stage were injected into non-preactivated recipient cytoplasms. Otherwise, the enucleated recipient cytoplasms were preactivated by electrical stimulation at 18h post-hCG injection and the separated G phase blastomeres of 32-cell stage were injected. Mter culture until 20h post-hOG injection, the nuclear transplant oocytes were electrofused by electrical stimulation. The fused nuclear transplant embryos were classified into 3~4-cell, 2-cell and 1-cell stage at 18 hrs post-fusion and cultured until the embryos reached blastocyst stage. The developmental rate to blastocyst stage was significantly (P <0.05) higher in all the reconstituted embryos of 3~4-cell stage(58.0%) than in 2 and icell stage. The developmental rate to blastocyst stage in the embryos of 3~4-cell stage at 18 hrs post-fusion was significantly (P<0.05) higher in the reconstituted without oocyte preactivation(77.8%) than in the oocyte-preactivated embryos (33.3%). These results indicated that the higher rate of in the in vitro development to blastocyst stage might be obtained form the embryos which were reconstituted with nuclear donor of G phase and non-preactivated oocyte, and developed more rapidly for 18 hrs post-fusion.

SUMMARY I. 서 론 II. 재료 및 방법 III. 결 과 IV. 고 찰 V. 적 요 VI. 인용문헌

Incidents of seafood poisoning and massive fish kills have been rapidly increasing in both frequency and geographical distribution and the socioeconomic impacts brought by those incidents. However, the biological origins of those marine toxins have not been well clarified. Most of the marine organisms investigated are filter-feeders, which accumulate toxins from their food and/or their symbiotic microalgae. We have examined the action on rabbit platelets of marine toxins isolated from cultured dinoflagellates and sponge collected at Okinawa. Maitotoxin (MTX) is a water-soluble toxin isolated from the cultured dinoflagellate Gambierdiscus toxicus which causes a seafood poisoning in tropical regions. Zooxanthellatoxin A (ZT-A) was isolated from extracts of cultured symbiotic dinoflagellate Symbiodinium sp. (socalled zooxanthella) from flatworms of the genus Amphiscolops collected at Okinawa. Theonezolide A (TZ-A) was isolated from the Okinawan marine sponge Theonella sp. MTX caused a disaggregation and a dissolution of large aggregates. ZT-A caused a dissolution of small aggregates followed by a increment of light trasmission. TZ-A caused an initial and transient shape change followed by a sustained aggregation and a increment of large aggregates. In conclusion, marine toxins exert unique patterns on the light trasmission and the size of aggregates in rabbit platelets by their concentrations and kinds

large scale production of cloned embryos requires the technology of multiple generation nuclear transplantation(NT) using NT embryos as the subsequent donor nuclei. The purposes of this study were producing the second generation cloned rabbit embryos, and also to determine the electrofusion rate and in vitro developmental potential comparatively in the cloned embryos of the first and second NT generation. The embryos of 16-cell stage were collected from the mated does by flushing oviducts with Dulbecco's phosphate buffered saline(D-PBS) containing 10% fetal calf serum(FCS) at 47 hours after hCG injection In the first generation NT, the nuclear donor embryos were synchronized in the phase of Gi /S transition of 32-cell stage. The first generation NT embryos which were developed to 8-cell were synchronized in Gi /S transition phase of the following 16-cell stage and used as donor nuclei for second generation Synchronization of the cell cycle of blastomeres was induced, first, using an inhibitor of microtuble polymerization, colcemid for 10 hours to arrest blastomeres in M phase, and secondly, using a DNA synthesis inhibitor, aphidicolin for 1.5 to 2 hours to arrest them in Gi /S transition boundary. The recipient cytoplasms were obtained by removing the nucleus and the first polar body from the oocytes collected at 14 hours after hCG injection. The separated donor blastomeres were injected into the enucleated recipient oocytes by micromanipulation and were electrofused by electrical stimulation of three pulses for 60 sec at 1.25 kV /cm in 0.28 M rnannitol solution The fused oocytes were co-cultured with a monolayer of rabbit oviductal epithelial cells in M-199 solution containing 10% FCS for 120 hours at 39 in a 5% incubator. Following in vitro culture of the first and second generation cloned embryos to blastocyst stage, they were stained with Hoechst 33342 dye for counting the number of blastomeres by fluorescence microscopy. The results obtained were summarized as follows: 1. The electrofusion rate was found to be similar as 79.4 and 91.5% in the first and second generation NT rabbit embryos, respectively. 2. The in vitro developmental potential to blastocyst stage of the second generation NT embryos (23.3%) was found significantly(p<0.05) lower, compared with that of the first generation NT embryos (56.8%). 3. The mean blastomeres counts of embryos developed to blastosyst stage following in vitro culture for 120 hours and also their daily cell cycles during the culture period were decreased significantly (p<0.05) to 104.3 cells and 1.33 cylces in the second NT generation, compoared with 210.4 cells and 1.54 cycles in the first NT generation, respectively.

This study was perfomed to investigate the differentiation of rabbit blastocysts microinjected with testosterone solution. A total of 140 mixed breed does was superovulated, synchronized and hand mated. The eggs were flushed from uterine horns between 65 and 89 hrs after mating. Testosterone was dissolved in 95% ethanol and diluted with PBS at the ratio of 1: 99. Final concentration of testosterone was adjusted to 1 pg /ml. 6~8 bias-tocysts were microinjected with 1~10 p Q of the diluted testosterone solution, and tranfer-red into the uterine horns of the synchronized recipients. When 140 donor does were treat-ed with a single does of 200 IU PMSG in combination with 100 IU RCG 48 hrs apart, 134 of them(97%) showed standing estrus. Ovarian responses of 117 does were examined following mating and the rate of ovulation was 11.23 i 1.20. Ova were recovered from donors between 65 and 89 hrs after mating. Recovery rates of ova were 37.5% and 42.2% of recovered ova were blastocysts. A total of 106 blastsocysts were microinjected with testosterone solution and transferred into the uterine horns of 15 synchronized recipient does. One of the recipients was pregnant and delivered 7 baby rabbits. The external genitalia of the young rabbits appered to be the same appearance as the buck entierly.

This study evaluated the influence of cell stage of donor nucleus on nuclear injection, electrofusion and in vitro development in the rabbit to improve the efficiency of nuclear transplantation in the rabbit. The embryos of 8-, 16- and 32-cell stage were collected from the mated does by flushing viducts with Dulbecco's phosphate buffered saline(D-PBS) containing 10% fetal calf serum(FGS) at 44, 54 and 60 hours after hCG injection. The blastorneres separated from these embryos were used as donor nucleus. The ovulated oocytes collected at 14 hours after hCG injection were used as recipient cytoplasm following removing the nucleus and the first polar body. The separated blastomeres were injected into the enucleated oocytes by micromanipulation and were electrofused in 0.28 M mannitol solution at 1.5 kV /cm, 60 sec for three times. The fused oocytes were cocultured with a monolayer of rabbit oviductal epithelial cells in M-199 solution containing 10% FGS for 72~120 hours at 39 in a 5% incubator. The cultured nuclear transplant embryos were stained with Hoechst 33342 solution and the number of cells were counted by fluorescence microscopy. The successful injection rate of 8-, 16- and 32-cell-stageblastomeres into enucleated oocytes was 86.7, 91.0 and 93.9%, respectively. The electrofusion rate of 8-, 16- and 32-cell-stage blastomeres with enucleated oocytes was 93.3,89.3 and 79.0%, respectively. Development of blastomeres to blastocyst was similar with 8-,16- and 32-cell-stage donor nuclei(26.2, 25.8 and 26.6%, respectively, P<0.05). The mean number of cell cycle per day during in vitro culture in nuclear transplant embryos which received 8-, 16- and 32-cell- stage nuclei was 1.87, 1.81 and 1.43, respectively.

같은 천남성과에 속하면서도 정유의 함유성분 및 함량이 서로 다른 수창포 정유와 석창포 정유가 토끼 적출장관 운동에 미치는 영향과 차이점, 또 어떠한 작용양식에 의하여 이루어지는가를 알아보고저 carbachol pilocarpine, histamine 및 barium chloride등과의 상호작용을 비교, 검토하였던 바 다음과 같은 결론을 얻었다. 1. 수창포 정유와 석창포 정유는 모두 토끼 적출장관 운동을 이완시켰으며, 농도를 증가시킬수록 이완정도는 현저하였고, 장관운동의 이완되는 정도는 두 정유 모두 같은 농도에서는 거의 비슷하였다. 2. ED50에 해당하는 농도는 수창포 정유는 0.0045% 이었고, 석창포 정유는 0.0035%이었다. 3. 수창포 정유와 석창포 정유에 의해 이완된 토끼의 적출장관은 carbachol pilocarpine, barium chloride에 의하여 정유 투여전의 상태로 회복하였으나, histamine에 의해서는 부분적인 회복을 보였다. 4. 수창포 정유와 석창포 정유는 carbachol pilocarpine, histamine 및 barium chloride에 의하여 수축된 토끼의 적출장판을 이완시켰다. 5. 이상의 결과로 보아서 수창포 정유와 석창포 정유는 다같이 향신경성작용 및 향근육성작용에 의해 토끼 적출장관 운동을 이완시킨다고 사료된다.