The effect of partial weaning on the rebreeding performance of primiparous Hereford heifers

One or two 6–7 or 9–10 day old blastocysts were transferred to 39 pure-bred or cross-bred Charolais heifer recipients.The embryos were collected after slaughter of the donors. An insemination catheter (Cassou gun) was used to transfer the blastocysts through the cervix into the uterus. Placement was approximately 5cm beyond the body of the uterus.Pregnancy was determined by slaughter of the recipients on the 45th day of gestation. Nineteen of the 39 recipients were pregnant. The survival rate of embryos transferred was as follows: 6–7 day old embryos: 7 out of 23 (30.4%); 9–10 day old embryos: 18 out of 36 (50%). All embryos: 25 out of 59 (42.3%). The difference between the 6–7 day old embryos and the 9–10 day old embryos was not significant. Twelve of the 20 recipients receiving a bilateral transfer were pregnant, and 6 were carrying twins. This is a satisfactory technique for use in field conditions for the transfer of bovine blastocysts.     

Factors affecting the efficiency of embryo transfer in the domestic ferret (Mustela putorius furo)

Embryo transfer (ET) to recipient females is a foundational strategy for a number of assisted reproductive technologies, including cloning by somatic cell nuclear transfer. In an attempt to develop efficient ET in domestic ferrets, factors affecting development of transferred embryo were investigated. Unilateral and bilateral transfer of zygotes or blastocysts in the oviduct or uterus was evaluated in recipient nulliparous or primiparous females. Developing fetuses were collected from recipient animals 21 days post-copulation and examined. The percentage of fetal formation was different (P<0.05) for unilateral and bilateral transfer of zygotes (71%) in nulliparous females with bilateral transfer (56%) in primiparous recipients. The percentage (90%) of fetal formation in nulliparous recipients following unilateral transfer of blastocysts was higher (P<0.05) than that observed in primiparous recipients with bilateral ET (73%). Notably, the percentage of fetal formation was higher (P<0.05) when blastocyts were transferred as compared to zygotes (90% versus 71%). Transuterine migration of embryos occurred following all unilateral transfers and also in approximately 50% of bilateral transfers with different number of embryos in each uterine horn. These data will help to facilitate the development of assisted reproductive strategies in the ferret and could lead to the use of this species for modeling human disease and for conservation of the endangered Mustelidae species such as black-footed ferret and European mink.     

Buffalos (Bubalus bubalis) cloned by nuclear transfer of somatic cells

Cloning of buffalos (Bubalus bubalis) through nuclear transfer is a potential alternative approach in genetic improvement of buffalos. However, to our knowledge, cloned offspring of buffalos derived from embryonic, fetal, or somatic cells have not yet been reported. Thus, factors affecting the nuclear transfer of buffalo somatic cells were examined, and the possibility of cloning buffalos was explored in the present study. Treatment of buffalo fibroblasts and granulosa cells with aphidicolin plus serum starvation resulted in more cells being arrested at the G0/G1 phase, the proportion of cells with DNA fragmentation being less, and the number of embryos derived from these cells that developed to blastocysts being greater. In addition, a difference was found in the development of embryos reconstructed with fetal fibroblasts from different individuals (P < 0.001). Forty-two blastocysts derived from granulosa cells and fetal fibroblasts were transferred into 21 recipient swamp buffalos, and 4 recipients were confirmed to be pregnant by rectal palpation on Day 60 of gestation. One recipient received two embryos from fetal fibroblasts aborted on Day 300 of gestation and delivered two female premature calves. Three recipients maintained pregnancy to term and delivered three female cloned calves after Days 338-349 of gestation. These results indicate that buffalo embryos derived from either fetal fibroblasts or granulosa cells can develop to the term of gestation and result in newborn calves.     

Bovine oocytes vitrified by the open pulled straw method and used for somatic cell cloning supported development to term

The objective of the present study was to determine if oocytes vitrified by the open pulled straw (OPS) method could subsequently be used to produce somatic cell cloned cattle. Post-thaw survival rates were 77.0, 79.1, 97.2 and 97.5% for oocytes vitrified with EDFS30 (15% ethylene glycol, 15% dimethyl sulfoxide, ficoll and sucrose), EDFS40 (20% ethylene glycol, 20% dimethyl sulfoxide, ficoll and sucrose), EDFSF30 (15% ethylene glycol, 15% dimethyl sulfoxide, ficoll, sucrose and FBS) and EDFSF40 (20% ethylene glycol, 20% dimethyl sulfoxide, ficoll, sucrose and FBS), respectively. The parthenogenetic blastocyst rates of the vitrified-thawed oocytes activated with 5 microM of the calcium ionophore A23187 for 5 min and 2 microM of 6-dimethylaminopurin (6-DMAP) for 4h ranged from 10.3 to 23.0%, with the highest group not significantly differing from that of the controls (33.2%). In total, 722 vitrified-thawed oocytes were used as recipients for nuclear transfer, of which 343 fused (47.6%). Fifty-six (16.3%) of the reconstructed embryos reached the blastocyst stage after 7d of in vitro culture. Twenty-four blastocysts derived from vitrified-thawed oocytes were transferred to six Luxi yellow cattle recipients. Two recipients (33%) were diagnosed pregnant; one aborted 97 d after transfer, whereas the other delivered a cloned calf after 263 d. As a control, 28 synchronous Luxi yellow cattle recipients each received a single blastocyst produced using a fresh oocyte as a nuclear recipient; 10 recipients were diagnosed pregnant, of which 6 (21.4% of the original 28) delivered cloned calves. In conclusion, bovine oocytes vitrified by the OPS method and subsequently thawed supported development (to term) of somatic cell cloned embryos.     

An efficient method for producing alpha(1,3)-galactosyltransferase gene knockout pigs

We have reported relatively efficient methods for somatic cell nuclear transfer and for knocking out the alpha(1,3)-galactosyltransferase (alpha1,3-GT) gene in porcine fetal fibroblasts using a nonisogenic promoterless construct approach. Here we report the production of alpha1,3-GT gene knockout pigs using these procedures. Seven alpha1,3-GT gene knockout cell clones were identified by long-range PCR from 108 neomycin resistant (neo(R)) colonies, giving a 6.5% targeting efficiency. Three cell clones were used for nuclear transfer. Nuclear transfer was performed using a fusion before activation protocol using in vitro-matured adult oocytes. Between 51 and 110 fused couplets were transferred to 10 recipients synchronized 1 day behind the embryos. Parturition was induced on day 115, and piglets were delivered by caesarean section. Four recipients gave birth to a total of 18 live piglets. All pigs were female, and all three clones resulted in the birth of live pigs. alpha1,3-GT gene knockout pigs were identified by long-range PCR and confirmed by Southern blot analysis. The efficiency (embryos transferred/piglets born) of our cloning protocol was 1.9% for all transfers and 4.6% for animals that gave birth.     

改进的培养体系在小鼠体细胞核移植及重构胚ES细胞分离培养中的应用

取8周后的雌性昆明小鼠进行超排,取卵母细胞用作核受体,收集卵母细胞周围的卵丘细胞作核供体,进行体细胞核移植。核移植重构胚经SrCl2激活处理6h后,与改良的M16培养液和小鼠输卵管上皮细胞共培养;将发育到早期囊胚阶段的重构胚转移至小鼠胎儿成纤维细胞饲养层上,添加含心肌细胞培养液的ES细胞培养液;把孵出的ICM进行消化接种培养,对孵出的ES细胞集落进行鉴定培养。结果显示,以小鼠卵丘细胞为核供体,体细胞核移植重构胚激活率为65．23％,囊胚发育率为11．69％;9个核移植重构囊胚中分离出ES细胞集落,分离率为2．77％;分离出的核移植ES细胞集落具有岛屿状团状隆起结构、碱性磷酸酶染色呈阳性,体外分化可形成类胚体,并能分化成上皮样或梭形细胞。ES细胞集落经常规冻存和复苏后,显示出同冻存前相似的集落形态,并具有较强的增殖能力。实验证实小鼠输卵管上皮细胞、改良的M16培养液及含心肌细胞培养液的ES细胞培养液可以更为成功地运用于小鼠的体细胞核移植及ES细胞的分离培养研究。     

Generation of cloned and chimeric embryos/offspring using the new methods of animal biotechnology

The article summarizes results of studies concerning: 1/ qualitative evaluation of pig nuclear donor cells to somatic cell cloning, 2/ developmental potency of sheep somatic cells to create chimera, 3/ efficient production of chicken chimera. The quality of nuclear donor cells is one of the most important factors to determine the efficiency of somatic cell cloning. Morphological criteria commonly used for qualitative evaluation of somatic cells may be insufficient for practical application in the cloning. Therefore, different types of somatic cells being the source of genomic DNA in the cloning procedure were analyzed on apoptosis with the use of live-DNA or plasma membrane fluorescent markers. It has been found that morphological criteria are a sufficient selection factor for qualitative evaluation of nuclear donor cells to somatic cell cloning. Developmental potencies of sheep somatic cells in embryos and chimeric animals were studied using blastocyst complementation test. Fetal fibroblasts stained with vital fluorescent dye and microsurgically placed in morulae or blastocysts were later identified in embryos cultured in vitro. Transfer of Polish merino blastocysts harbouring Heatherhead fibroblasts to recipient ewes brought about normal births at term. Newly-born animals were of merino appearance with dark patches on their noses, near the mouth and on their clovens. This overt chimerism shows that fetal fibroblasts introduced to sheep morulae/blastocysts revealed full developmental plasticity. To achieve the efficient production of chicken chimeras, the blastodermal cells from embryos of the donor breeds, (Green-legged Partridgelike breed or GPxAraucana) were transferred into the embryos of the recipient breed (White Leghorn), and the effect of chimerism on the selected reproductive and physiological traits of recipients was examined. Using the model which allowed identification of the chimerism at many loci, it has been found that 93.9% of the examined birds were chimeras. The effect of donor cells on the reproduction and physiology of the recipients was evident.     

Cloned blastocysts produced by nuclear transfer from somatic cells in cynomolgus monkeys (<Emphasis Type="Italic">Macaca fascicularis</Emphasis>)

In nonhuman primates (NHPs), there have so far been few reports about nuclear transfer (NT), especially using adult somatic cells. The objective of this study was to determine the developmental competence of NT embryos derived from various somatic cells embryonic stem (ES), amniotic epithelial, cumulus, or fetal fibroblast cells] and the nuclear transfer method, such as electro fusion or piezo microinjection, activation with chemical reagent [ionomycine/6-dimethylaminopurine (DMAP), calcium ionophore A23187/DMAP, or cycloheximide (CHX)] and reprogramming time (1, 2, or 4 h; in this study, the duration from injection or fusion to activation was defined as the reprogramming time). Our results showed that a 1-h reprogramming and activation with ionomycin/DMAP are suitable for NT in monkeys. Developing cleaved embryos up to the six-cell stage was similar among all experiments. However, beyond the eight-cell stage, developmental rates were higher in NT embryos reconstructed with fetal fibroblast cells and amniotic epithelial cells, and we were able to produce NT blastocysts from these cells. Interestingly, electro fusion is sufficient for amniotic epithelial cells and piezo microinjection is better suited for fetal fibroblast cells to produce NT blastocysts, thus suggesting that the best method for somatic cell NT may be different between cell types.     

Simplification of bovine somatic cell nuclear transfer by application of a zona-free manipulation technique

Contemporary nuclear transfer techniques often require the involvement of skilled personnel and extended periods of micromanipulation. Here, we present details of the development of a nuclear transfer technique for somatic cells that is both simpler and faster than traditional methods. The technique comprises the bisection of zona-free oocytes and the reconstruction of embryos comprising two half cytoplasts and a somatic cell by adherence using phytohaemagglutinin-P (PHA) followed by an electropulse and subsequent culture in microwells (termed WOWs--well of the well). The development of the system was based on results using parthenogenetic and in vitro fertilized zygotes in order to (a) select the optimal primary activation agent that induced the lowest lysis rate but highest parthenogenetic blastocyst yield, (b) evaluate the quantity and quality of zona-free blastocysts produced in WOWs, and (c) establish any potential embryotoxic effects of PHA-P. The initial data indicated that, of calcium ionophore A23187, ionomycin, and electropulse treatments as primary activation agents, the two former were equally efficient even with reduced exposure times. WOW-culture of zona-free versus zona-intact zygotes were not different in either blastocyst yield (44.6 +/- 2.4% versus 51.8 +/- 13.5% [mean +/- SEM]) or quality (126.3 +/- 48.4 versus 119.9 +/- 32.6 total cells), and exposure of zygotes to PHA-P did not reduce blastocyst yields compared to vehicle control (40.8 +/- 11.6% versus 47.1 +/- 20.8% of cultured oocytes). Subsequent application of the optimized technique for nuclear transfer using nine different granulosa cell primary cultures (cultured in 0.5% serum for 5-12 days) generated 37.6 +/- 3.9% (11 replicates; range, 16.4-58.1%) blastocysts per successfully fused and surviving reconstructed embryo (after activation), and 33.6 +/- 3.7% blastocysts per attempted reconstructed embryo. Mean day 7 total blastocyst cell numbers from 5 clone families was 128.1 +/- 15.3. The ongoing pregnancy rate of recipients each receiving two nuclear transfer blastocysts is 3/13 (23.1%) recipients pregnant at 5 months after transfer. These results suggest that the zona-free nuclear transfer technique generates blastocysts of equivalent quantity and quality compared to conventional micromanipulation methods, requires less technical expertise, is less time consuming and can double the daily output of reconstructed embryos (even after taking into consideration the rejection of the half oocytes containing the metaphase plate).     

转基因红鲤体细胞的核移植

以F4代转hGH基因红鲤体细胞（肾脏和尾鳍）及培养18代的F4代转hGH基因红鲤尾鳍细胞为核供体,泥鳅或黄河鲤成熟卵为受体,进行了核移植,以探讨外源F4代转基因鱼体外源基因的分布与存在形式,稳定性和克隆转基因鱼的可能性。F4代红鲁肾脏细胞核与泥鳅卵配合的核移植胚胎有12．4％发育到囊胚,0．33％发育到神经胚;F4代尾鳍细胞核移入泥鳅卵后的重组胚发育到囊胚,神经胚、肌节期和肌肉效应期的胚胎分别为24．5％、0．3％、0．2％和0．1％;对照卵无发育。F4代红鲤尾鳍培养细胞与黄河鲤卵子配合的重组胚胎有50．53％发育到囊胚,5．69％发育到原肠胚,0．53％发育到神经胚,0．4％发育到肌节期。说明由于同种细胞核与卵细胞的相容性高于异种核卵的相容性,早期发育率高;而由于培养细胞的异倍化,后期的发育率降低。用PCR技术对供体鱼不同个体及同一体不同组织外源基因检测,结果100％个体为阳性鱼,而且不同组织的阳性率也是100％,说明外源基因均匀分布在不同组织中。无论F4代转基因鱼的肾脏细胞、尾鳍细胞还是培养的尾鳍细胞作核移植供体,核移植胚胎中hGH基因的检出率为100％。说明F4代转基因红鲤个体不同细胞都存在hGH基因,而且经长期培养不会丢失。表明F4代转基因红鲤中的外源hGH基因已基本稳定,体细胞核移植可以作为获得同质化转基因鱼的有效手段,但核移植效率还很低。另外还讨论了核质的相容性、细胞周期的协调、染色体的变异等因素对核移植的影响。     

Somatic cell cloning in Buffalo (Bubalus bubalis): effects of interspecies cytoplasmic recipients and activation procedures

Successful nuclear transfer (NT) of somatic cell nuclei from various mammalian species to enucleated bovine oocytes provides a universal cytoplast for NT in endangered or extinct species. Buffalo fetal fibroblasts were isolated from a day 40 fetus and were synchronized in presumptive G(0) by serum deprivation. Buffalo and bovine oocytes from abattoir ovaries were matured in vitro and enucleated at 22 h. In the first experiment, we compared the ability of buffalo and bovine oocyte cytoplasm to support in vitro development of NT embryos produced by buffalo fetal fibroblasts as donor nuclei. There were no significant differences (p > 0.05) between the NT embryos derived from buffalo and bovine oocytes, in fusion (74% versus 71%) and cleavage (77% versus 75%) rates, respectively. No significant differences were also observed in blastocyst development (39% versus 33%) and the mean cell numbers of day 7 cloned blastocysts (88.5 +/- 25.7 versus 51.7 +/- 5.4). In the second experiment, we evaluated the effects of activation with calcium ionophore A23187 on development of NT embryos after electrical fusion. A significantly higher (p < 0.05) percentage of blastocyst development was observed in the NT embryos activated by calcium ionophore and 6-DMAP when compared with 6-DMAP alone (33% versus 17%). The results indicate that the somatic nuclei from buffalo can be reprogrammed after transfer to enucleated bovine oocytes, resulting in the production of cloned buffalo blastocysts similar to those transferred into buffalo oocytes. Calcium ionophore used in conjunction with 6-DMAP effectively induces NT embryo development.     

Effect of asynchronous superinduction on embryo survival and range of blastocyst development in swine

The importance of uniform development of blastocysts was examined by comparing the effects of asynchronous superinduction (Day 6 embryos into Day 7 pregnant recipients and Day 7 embryos into Day 6 pregnant recipients) on the range of embryo development at Days 12 and 13 to subsequent survival to Day 30. Twenty gilts were used to produce five Day 7 recipients that received Day 6 embryos and five Day 6 recipients that received Day 7 embryos. Embryos from the Day 7 and Day 6 recipients were examined 6 days later. Recovered embryos ranged morphologically from spherical to filamentous blastocysts. This range of embryos was within the limits of that previously observed for naturally mated sows. However, recovered blastocysts from the Day 6 embryos transferred into Day 7 recipients were morphologically more variable and proportionately less developed than the blastocysts from the Day 7 embryos transferred into Day 6 recipients. Forty additional gilts were subsequently utilized to generate 20 recipients (10 recipients per transfer group) that were examined on Day 30. More Day 7 embryos transferred into Day 6 recipients survived (p less than 0.05) than Day 6 embryos transferred into Day 7 recipients. These experiments suggested that greater variation in early development of embryos, within litters, subsequently resulted in greater mortality of embryos.     

Blastocysts derived from adult fibroblasts of a rhesus monkey ( Macaca mulatta) using interspecies somatic cell nuclear transfer

In non-human primates, it is difficult to collect sufficient numbers of oocytes for producing identical embryos by somatic cell nuclear transfer (SCNT). Because of this factor, inter-species SCNT (iSCNT) using heterospecific oocytes is an attractive alternative approach. The objective of this study was to produce iSCNT-derived blastocysts using enucleated cow (Bos taurus) metaphase II oocytes and adult rhesus monkey (Macaca mulatta) fibroblasts. Ear skin tissue from a 6-year-old male rhesus monkey was collected by biopsy and fibroblasts were isolated. Immature cumulus-oocyte complexes from cow ovaries were collected and matured in vitro in Medium 199. The enucleated oocytes were reconstructed with rhesus monkey fibroblasts and iSCNT embryos were cultured in modified synthetic oviduct fluid in an atmosphere of 5-5.5% CO2 under various conditions (37-39 °C and 5-20% O2) to examine the effects of in vitro culture conditions. Most embryos were arrested at the 8- or 16-cell stage and only three blastocysts were derived in this way using iSCNT from a total of 1153 cultured activated embryos (0.26% production rate). Two of the three blastocysts were used for counting nuclear numbers using bisbenzimide staining, which were 51 and 24. The other iSCNT-derived blastocyst was used to analyse mitochondrial DNA (mtDNA) by PCR, and both rhesus monkey and cow mtDNA were detected. Although the development rate was extremely low, this study established that iSCNT using two phylogenetically distant species, including a primate, could produce blastocysts. With improvements in the development rate, it may be possible to produce rhesus monkey iSCNT-derived embryonic stem cell lines for studies on primate nucleus and cow mitochondria interaction mechanisms.     

Nuclear transfer in cattle using in vivo-derived vs. in vitro-produced donor embryos: Effect of developmental stage

To determine the best developmental stage of donor embryos for yielding the highest number of clones per embryo, we compared the efficiencies of nuclear transfer when using blastomeres from morulae or morulae at cavitation, or when using inner-cell-mass cells of blastocysts as nuclear donors. This comparison was done both on in vivo-derived and in vitro-produced donor embryos. In experiment 1, with in vivo-derived donor embryos, nuclei from morulae at cavitation supported the development of nuclear transfer embryos to the blastocyst stage (36%) at a rate similar to that of nuclei from morulae (27%), blastomeres from morulae at cavitation being superior (P < 0.05) to inner-cell-mass cells from blastocysts (21%). The number of blastocysts per donor embryo was significantly (P < 0.05) higher when using nuclei from morulae at cavitation (15.7 ± 4.1) rather than nuclei from morulae (9.8 ± 5.5) or blastocysts (6.3 ± 3.3). With in vitro-produced donor embryos (experiment 2), nuclei from morulae yielded slightly more blastocysts (32%) than nuclei from morulae at cavitation (29%), both stages being superior to nuclei from blastocysts (15% development to the blastocyst stage). Morulae at cavitation yielded a higher number of cloned blastocysts per donor embryo (11.5 ± 5.9) than did morulae (9.3 ± 3.2) and blastocysts (3.3 ± 1.4). Transfer of cloned embryos originating from in vivo-derived morulae, morulae at cavitation, and blastocysts resulted in four pregnancies (10%), three pregnancies (7%), and one (17%) pregnancy on day 45. The corresponding numbers of calves born were 3 (4%), 3 (7%), and 0, respectively. After transfer of blastocysts derived from in vitro nuclear donor morulae (n = 16) and morulae at cavitation (n = 7), two (20%) and two (50%) recipients, respectively, were pregnant on day 45. However, transfer of seven cloned embryos from in vitro donor blastocysts to three recipients did not result in a pregnancy. Using in vitro-produced donor embryos, calves were only obtained from morula-stage donors (13%). Our results indicate that the developmental stage of donor embryos affects the efficiency of nuclear transfer, with morulae at cavitation yielding a high number of cloned blastocysts. © 1996 Wiley-Liss, Inc.     

In vitro development of porcine nuclear transfer embryos constructed using fetal fibroblasts

The in vitro development of porcine nuclear transfer embryos constructed using primary cultures from day 25 fetal fibroblasts which were either rapidly dividing (cycling) or had their cell-cycle synchronized in G0/G1 using serum starvation (serum-starved) was examined. Oocyte-karyoplast complexes were fused and activated simultaneously and then cultured in vitro for seven days to assess development. Fusion rates were not different for either cell population. The proportion of reconstructed embryos that cleaved was higher in the cycling group compared to the serum-starved group (79 vs. 56% respectively; P < 0.05). Development to the 4-cell stage was not different using either population. Both treatments supported similar rates of development to the morula (1.5 vs. 7%, cycling vs. serum-starved) and blastocyst stage (1.5 vs. 3%, cycling vs. serum-starved). The blastocyst produced using cycling cells had a total cell number of 10. Total cell numbers for the three blastocysts produced serum-starved cells were 22, 24, and 33. These blastocysts had inner cell mass numbers of 0, 15, and 4, respectively. Six hundred and thirty-five nuclear transfer embryos reconstructed using serum-starved cells were transferred to 15 temporarily mated recipients for 3-4 days. Of these, 486 were recovered (77% recovery rate) of which 106 (22%) had developed to the 4-cell stage or later. These were transferred to a total of 15 recipients which were either unmated or mated. Seven recipients farrowed a total of 51 piglets. Microsatellite analysis revealed that none of these were derived from the nuclear transfer embryos transferred.     

Banteng (Bos javanicus) embryos and pregnancies produced by interspecies nuclear transfer

The banteng (Bos javanicus), a member of the bovidae family, is currently listed as threatened by the IUCN Red List and it is estimated the total world population is <10,000 animals. In exotic or endangered species, the lack of oocytes and recipients precludes the use of traditional somatic cell nuclear transfer (NT), and an approach such as interspecies NT may be the only alternative to produce embryos and offspring. A total of 348 enucleated domestic bovine oocytes were reconstructed with either male (Treatment A) or female (Treatment B) adult banteng fibroblasts and a total of 103 bovine oocytes were parthenogenically activated as a control (Treatment C). There was no significant difference in fusion rate (68 versus 77%) between Treatments A and B. Of fused couplets, those in Treatment A had greater (P < 0.05) cleavage (67 versus 51%) and blastocyst (28 versus 15%) rate than Treatment B. Of a total of 24 blastocysts transferred into 12 domestic cattle recipients from Treatment A, two pregnancies (17%) were established with heart beats detectable at 30 day by rectal ultrasonography. No pregnancies resulted from the transfer of 14 blastocysts from Treatment B. Both pregnancies were subsequently lost, one between 30 and 60 days and the second between 60 and 90 days of gestation. The bovine cytoplast supported mitotic cleavage of banteng karyoplasts, and was capable of reprogramming the nucleus to achieve blastocyst stage embryos and pregnancies in exotic bovids.     

Production of cloned calves following nuclear transfer with cultured adult mural granulosa cells

Adult somatic cell nuclear transfer was used to determine the totipotent potential of cultured mural granulosa cells, obtained from a Friesian dairy cow of high genetic merit. Nuclei were exposed to oocyte cytoplasm for prolonged periods by electrically fusing quiescent cultured cells to enucleated metaphase II cytoplasts 4-6 h before activation (fusion before activation [FBA] treatment). Additionally, some first-generation morulae were recloned by fusing blastomeres to S-phase cytoplasts. A significantly higher proportion of fused embryos developed in vitro to grade 1-2 blastocysts on Day 7 with FBA (27.5 +/- 2.5%) than with recloning (13.0 +/- 3.6%; p < 0. 05). After the transfer of 100 blastocysts from the FBA treatment, survival rates on Days 60, 100, 180, and term were 45%, 21%, 17%, and 10%, respectively. Ten heifer calves were delivered by elective cesarean section; all have survived. After the transfer of 16 recloned blastocysts, embryo survival on Day 60 was 38%; however, no fetuses survived to Day 100. DNA analyses confirmed that the calves are all genetically identical to the donor cow. It is suggested that the losses throughout gestation may in part be due to placental dysfunction at specific stages. The next advance in this technology will be to introduce specific genetic modifications of biomedical or agricultural interest.     

人-牛异种克隆胚构建及其线粒体来源

通过人-牛异种核移植技术获得异种克隆囊胚, 便于在不消耗人类卵母细胞的情况下从异种克隆胚中分离出人类干细胞。通过透明带下注射法将人胎儿成纤维细胞和牛耳成纤维细胞分别注入去核牛卵母细胞中构建异种和同种胚胎, 并比较两者之间的融合率、卵裂率、8-细胞发育率以及囊胚率。并对处于2-细胞、4-细胞、8-细胞、桑椹胚、囊胚阶段的异种克隆胚的线粒体DNA来源进行检测。结果表明, 异种克隆胚体外各个阶段的发育率均低于同种克隆胚, 尤其是8-细胞到囊胚阶段的发育率, 以及囊胚率都显著低于同种克隆胚(P<0.05)。异种克隆胚在2-细胞到桑椹胚阶段检测到人、牛线粒体DNA共存, 囊胚阶段只检测到牛线粒体DNA。结果表明: 牛卵母细胞可以重编程人胎儿成纤维细胞, 完成异种克隆胚植入前的胚胎发育, 异种克隆胚由于核质相互作用的不谐调, 影响其发育能力, 使其囊胚率显著低于同种克隆胚。牛线粒体DNA存在于植入前异种胚胎发育的各个阶段。异种克隆胚胎用于人类胚胎干细胞分离具有可行性。