In the present study, we investigated the effects of genotypes on in vitro maturation and fertilization in porcine fresh/frozen-thawed oocytes. The porcine cumulus-oocyte complexes (COCs) were divided into four groups according to whether they were: (1) in vitro matured; (2) cryopreserved and in vitro matured; (3) in vitro fertilized and (4) cryopreserved, and in vitro fertilized. Maturation of porcine COCs was accomplished by incubation in NCSU23 medium. Immature oocytes were cryopreserved by Open Pulled Straws (OPS) method according to Vajta et al., (1998). Oocytes stained by Acetic-Orcein method were observed under the microscope. DNA extracted from the ovaries was analyzed by RAPD (random amplified polymorphic DNA) and SSCP (single strand conformational polymorphisrrt) method. The rates of oocytes maturation and fertilization were significantly high in AA genotype. The results indicated that in vitro maturation and fertilization in porcine fresh/frozen-thawed oocytes may be affected by genotypes in pigs.

This study were examined whether plasminogen activators (PAs) are produced by porcine fresh or frozen-thawed cumulus-oocytes complexes (COCs) and cumulus cell free-oocytes. In fresh or frozen-thawed COCs and oocytes for 0 hour cultured, no activity of PAs was detected. However, at 24 hours of culture urokinase-type plasminogen activator (uPA) was detected in COCs and denuded oocytes. In the frozen-thawed COCs and cumulus cell free-oocytes cultured for 24 hours, no PAs were observed. After COCs were cultured for 48 hours, tissue-type plasminogen activator (tPA) and tPA-PAI were observed in COCs only. In the frozen-thawed COCs and cumulus cell free-oocytes cultured for 48 hours, no PAs were observed. These results suggest that uPA, tPA and tPA-PAI are produced by porcine COCs, but only uPA by oocytes during maturation for 24 hours. Only tPA, and tPA-PAI are produced by COCs cultured for 48 hours, and no PAs are produced by denuded-oocytes cultured for 48 hours. In all of the frozen-thawed groups, no PAs are observed by COCs and denuded-oocytes.

본 연구에서는 vitrification방법을 사용하여 돼지 미수정란의 동결-융해시 난자생존능력에 대한특정 동해방지제 사용과 superoxide dismutase(SOD) 첨가의 영향을 검토하고자 수행하였다. 그 결과 미성숙 난자를 ethylene glycol과 DMSO 노출 후 성숙율(M-I에서 19.9%)이 glycerol과 DMSO 노출 후 성숙율(M-I에서 6.5%)보다 더 높았으며 ethylene glycol에 노출 후에는 M-I기로 성숙발달한

ICSI시 동결 융해한 부고환 정자의 이용 가능성을 알아보고자 난자의 배양시 체외성숙율과 활성화 처리를 한 난자와 동결 융해한 부고환 정자로 ICSI시 체외발생율을 조사하였으며, 결과를 요약하면 다음과 같다. 1. 난포란을 회수 후 24시간 배양하였을 때 배양 시간에 따른 GV, MI, M II로의 체외성숙율은 각각 7/60(11.7%), 5/60(8.3%), 48/60(80.0%)였고 30시간 배양 시간에 따른 GV, MI, M II로의 체외성숙율은

본 연구는 OPS 방법에 의한 돼지미성숙 및 성숙난자의 동결-융해 후 난자의 생존성에 있어서 난구세포의 영향을 검토하였다. 그 결과 미성숙 난자의 동결-융해 후의 성숙율은 난구세포의 부착 (25%) 및 제거 (15%)시 유의적인 차이는 인정되지 않았지만 control group (62%)에 비해서는 유의적으로 낮게 나타났다(P<0.05). 미성숙난자의 동결-융해 후 체외성숙시킨 난자의 체외수정시 난구세포 제거시 (19%), 부착된 (9%) 난자에 비해

These experiments were conducted to examine the effects of theophylline, pentoxifylline and heparin on frozen-thawed Hanwoo sperm for enhancing motility and viability of sperm. Frozen-thawed semen collected from one bull was treated in TALP(tyrode-albuminlactate-pyruvate) containing varous concentrations of theophylline and pentoxifylline. After incubated at 5% CO2 in air atmosphere for 6 hours, the motility of sperm after the treatments was characterized by CASA(computer aided semen analysis) system. When monitored notility(MOT) and curvilinear velocity(VCL), theophylline and pentoxifylline exerted their optimal action at the concentration of 30 mM and 3 mM, respectively. No difference of sperm motility was observed when the sperm was treated with both substances compared with a single treatment of each substance. Comparison was then made for evaluating the effect of theophylline and / or pentoxiophylline on the motility and viability of significant treatment effects of each substance, high MOT and VCL values were detected in sperm treated with theophylline. In the case of sperm viability examined by an eosin-nigrosin staining, however, a significant decrease was found after the combined treatment of theophylline+pentoxyphilline than after the treatment with heparin alone or no treatment(P<0.05). In conclusion, theophylline, pentoxiphylline or heparin can be used for enhancing the motional characteristics and viability of frozen thawed Hanwoo semen. Considering characteristics of these substances, theophyline may be useful in the artificial insemination system, which requires vigorous sperm motility. While, heparin supporting sperm viability in vitro can be effectively used for improving in vitro-fertilization system.

Immature nocytes and in VitrO matured Oocytes collected from the slaughtered Korean cattle were frozen slowly with 10% ethylene glycol+5% polyvinyl pyrolidine+0.05M trehalose (l0EPT), 10% ethylene glycol+5% ficoll+0.05M sucrose (1OEFS), or 10% ethylene glycol+5% ficoll+0.05M trehalose (l0EFT) by cell freezer (experiment 1). And also,They were ultra-rapidly frozen with 30% ethylene glycol+10% polyvinyl pyrolidine+0.5M trehalose (3OEPT) or 30% ethylene glycol+18% ficoll+0.5M sucrose (3OEFS) using electron microscope grid (experiment 2). In experiment 1, the cleavage rate was 23.0% when immature oocytes were frozen slowly using various cryoprotectants descrihed above, and 5.1% of cleaved oocytes developed to over morula stage after in Vitro fertilization (IVF). There were no significant differences among these groups. When matured oocytes were frozen slowly, the total cleavage rate was 19.7%, and over morula stage was 3.2%. lOEPT (4.8%) and EFS (4.4%) were slightly more effective than l0EFT (0.0%) for development in vitro. Only in l0EFT treated group, immature oocytes have higher developmental capacity than matured ones, when they were frozen slowly and IVF after thawing. In experiment 2, oocytes were ultra-rapidly frozen using the electron microscope grid with two kind of cryoprotectants described above. In immature oocyte group, the cleavage rate was 13.9% and 5.8% of cleaved oocytes developed to over morula stage after IVF, and in matured group, 25.7 and 7.6%, respectively. There were no significant differences between two kind of cryoprotectants, but in ultra-rapid freezing using electron microscope grid, the efficiency is slightly higher in matured oocyte group.

This study was undertaken in an effort to develop a cryopreservation system of immature and mature porcine oocytes. For this aim, the experiments were designed to examine the effect of cryoprotectants and equdibration time on the viability of frozen-thawed oocytes by using trypan blue(TB) and fluorescene diacetate(FDA) test. The viability of frozen immature oocytes evaluated by TB test was slightly higher than that of frozen mature oocytes. The viability(25.O%) after IVM of frozen-thawed immature oocytes greatly decreased that(42.9%) of oocytes just after thawing, but it was higher than frozen-thawed mature oocytes(15.8%). When immature oocytes were equilibrated for 10, 20 and 30 minutes before freezing the oocyte viability was 20.0, 31.3 and 42.9%, respectively. There was a tendency for long equilibration before oocyte freezing to be more effective for the immature oocytes and a short equilibration time for mature oocytes. Although there was no difference in viability index of frozen oocytes hetween the viability test methods, the index of TB test was slightly higher than that of FDA test. The viability(FDA test) of frozen-immature oocytes with 3 different crtoprotectants was 22.2% for propylene glycol(PG), 9.3% for polyehtylene glycol(PEG) and 65.6% for PG+PEG, in which PG+PEG was more protective against freezing effect.

Frozen storage of the oocytes has been used in a few mammalian species including mouse, hamster, human and cattle. However, frozen4hawed oocvtes show different sperm penetration on the levels of the zona pellucida and the plasma memhrane when compared with fresh oocytes. To elucidate biological changes occurring during freezing and thawing, we examined the kinetics of sperm penetration into frozen-thawed hamster oocytes. Oocytes obtained from superovulated female golden hamsters were frozen-thawed in an autofreezer according to an established method. Fresh and frozen4hawed oocytes were fertilized in vitro with capacitated hamster spermatozoa after removing the zona pellucida. The oocytes were examined at 1, 2, 3 and 6 h postinsemination. Sperm penetration found to be 1 h delayed in frozen-thawed oocytes. Other parameters such as degree of polyspermy and decondensing sperm heads were not affected by freezing and thawing. The results suggest that freezing and thawing may cause changes in the egg membrane surface and subsequently which leads to delay in the sperm-egg fusion.