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Cell Nuclear Transfer (cell + nuclear_transfer)
Kinds of Cell Nuclear Transfer Selected AbstractsAn Inter-Subspecies Cloned Buffalo (Bubalus bubalis) Obtained by Transferring of Cryopreserved Embryos via Somatic Cell Nuclear TransferREPRODUCTION IN DOMESTIC ANIMALS, Issue 5 2010BZ Yang Contents The aim of this study was to explore the feasibility of cryopreservation of inter-subspecies cloned embryos in buffalo. In our experiment, river buffalo ear fibroblast nucleus was fused into swamp buffalo oocyte cytoplasm. The blastocyst formation rate for nuclear transfer of freshly thawed cells was not different from those of growing cells, confluent or serum-starved cells. A total of 122 cloned blastocysts derived from cryopreserved fibroblasts were cryopreserved and thawed, 37 were survived, the cryosurvival rate was 30.3%. The survived blastocysts were transferred into 15 recipient buffalos. Five of the recipients established pregnancy, but four of them aborted on day 53, 59, 145 and 179 of gestation respectively. One cross-bred buffalo (Murrah × Swamp buffalo (2n = 49) received three embryos delivered a 40.5 kg female calf by natural delivery on day 320 of gestation. Up to now (13-month old), the cloned calf has been growing well with no abnormity observed. These results demonstrated that cryopreservation of inter-subspecies cloned embryos is feasible to produce buffalo offspring. [source] Cloning Adult Farm Animals: A Review of the Possibilities and Problems Associated with Somatic Cell Nuclear TransferAMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 2 2003J. L. Edwards In 1997, Wilmut et al. announced the birth of Dolly, the first ever clone of an adult animal. To date, adult sheep, goats, cattle, mice, pigs, cats and rabbits have been cloned using somatic cell nuclear transfer. The ultimate challenge of cloning procedures is to reprogram the somatic cell nucleus for development of the early embryo. The cell type of choice for reprogramming the somatic nucleus is an enucleated oocyte. Given that somatic cells are easily obtained from adult animals, cultured in the laboratory and then genetically modified, cloning procedures are ideal for introducing specific genetic modifications in farm animals. Genetic modification of farm animals provides a means of studying genes involved in a variety of biological systems and disease processes. Moreover, genetically modified farm animals have created a new form of ,pharming' whereby farm animals serve as bioreactors for production of pharmaceuticals or organ donors. A major limitation of cloning procedures is the extreme inefficiency for producing live offspring. Dolly was the only live offspring produced after 277 attempts. Similar inefficiencies for cloning adult animals of other species have been described by others. Many factors related to cloning procedures and culture environment contribute to the death of clones, both in the embryonic and fetal periods as well as during neonatal life. Extreme inefficiencies of this magnitude, along with the fact that death of the surrogate may occur, continue to raise great concerns with cloning humans. [source] Stretching the limits: Stem cells in regeneration scienceDEVELOPMENTAL DYNAMICS, Issue 12 2008David L. Stocum Abstract The focus of regenerative medicine is rebuilding damaged tissues by cell transplantation or implantation of bioartificial tissues. In either case, therapies focus on adult stem cells (ASCs) and embryonic stem cells (ESCs) as cell sources. Here we review four topics based on these two cell sources. The first compares the current performance of ASCs and ESCs as cell transplant therapies and the drawbacks of each. The second explores somatic cell nuclear transfer (SCNT) as a method to derive ESCs that will not be immunorejected. The third topic explores how SCNT and ESC research has led to the ability to derive pluripotent ESCs by the dedifferentiation of adult somatic cells. Lastly, we discuss how research on activation of intrinsic adult stem cells and on somatic cell dedifferentiation can evolve regenerative medicine from a platform consisting of cell transplantation to one that includes the chemical induction of regeneration from the body's own cells at the site of injury. Developmental Dynamics 237:3648,3671, 2008. © 2008 Wiley-Liss, Inc. [source] Generation of red fluorescent protein transgenic dogsGENESIS: THE JOURNAL OF GENETICS AND DEVELOPMENT, Issue 5 2009So Gun Hong Red fluorescent protein expression in the paws of the first transgenic dogs generated by somatic cell nuclear transfer. See the paper by Hong et al. in this issue. [source] Caffeine treatment of ovine cytoplasts regulates gene expression and foetal development of embryos produced by somatic cell nuclear transferMOLECULAR REPRODUCTION & DEVELOPMENT, Issue 10 2010Inchul Choi Abstract Treatment of ovine oocytes during the latter stages of maturation in vitro with caffeine, a phosphodiesterase inhibitor, can increase the activities of maturation promoting factor and mitogen-activated protein kinases at metaphase II. When used as cytoplast recipients for somatic cell nuclear transfer (NT), caffeine-treated oocytes produced blastocysts with increased cell numbers. The objectives of these studies were to determine the effects of caffeine treatment on the expression profile of genes involved in early embryonic development and whether induction or maintenance of pregnancy was subsequently altered. No differences in overall expression patterns were observed between fertilised, caffeine-treated fertilised and parthenogenetic embryos. In control NT embryos, altered levels of gene expression were found for OCT4, five genes regulated by OCT4 (H2AF.Z, NANOG, SOX2, FGF4 and INFT) and the heat-shock response genes (HSP27 and HSP70.1). Levels of OCT4, H2AF.Z, NANOG, HSP 27 and FGF4 decreased, while those of INFT, HSP70.1 and SOX2 increased. In contrast, expression levels of these genes in caffeine-treated NT embryos were similar to those in fertilised controls. Following transfer to surrogate recipients no differences were observed in the frequency of pregnancy; however, ewes receiving caffeine-treated embryos maintained pregnancies for longer periods and delivered a live lamb. Taken together, these results suggest that treatment of ovine oocytes with caffeine can affect gene expression and improve developmental competence. Further studies on the mechanisms behind this alteration of gene expression are required and will aid in understanding the molecular mechanisms involved in nuclear reprogramming. Mol. Reprod. Dev. 77:876,887, 2010. © 2010 Wiley-Liss, Inc. [source] Global gene expression analysis of bovine somatic cell nuclear transfer blastocysts and cotyledonsMOLECULAR REPRODUCTION & DEVELOPMENT, Issue 5 2009K.I. Aston Low developmental competence of bovine somatic cell nuclear transfer (SCNT) embryos is a universal problem. Abnormal placentation has been commonly reported in SCNT pregnancies from a number of species. The present study employed Affymetrix bovine expression microarrays to examine global gene expression patterns of SCNT and in vivo produced (AI) blastocysts as well as cotyledons from day-70 SCNT and AI pregnancies. SCNT and AI embryos and cotyledons were analyzed for differential expression. Also in an attempt to establish a link between abnormal gene expression patterns in early embryos and cotyledons, differentially expressed genes were compared between the two studies. Microarray analysis yielded a list of 28 genes differentially expressed between SCNT and AI blastocysts and 19 differentially expressed cotyledon genes. None of the differentially expressed genes were common to both groups, although major histocompatibility complex I (MHCI) was significant in the embryo data and approached significance in the cotyledon data. This is the first study to report global gene expression patterns in bovine AI and SCNT cotyledons. The embryonic gene expression data reported here adds to a growing body of data that indicates the common occurrence of aberrant gene expression in early SCNT embryos. Mol. Reprod. Dev. 76: 471,482, 2009. © 2008 Wiley-Liss, Inc. [source] Production of cloned dogs by decreasing the interval between fusion and activation during somatic cell nuclear transferMOLECULAR REPRODUCTION & DEVELOPMENT, Issue 5 2009Sue Kim To improve the efficiency of somatic cell nuclear transfer (SCNT) in dogs, we evaluated whether or not the interval between fusion and activation affects the success rate of SCNT. Oocytes retrieved from outbred dogs were reconstructed with adult somatic cells from a male or female Golden Retriever. In total, 151 and 225 reconstructed oocytes were transferred to 9 and 14 naturally synchronized surrogates for male and female donor cells, respectively. Chromosomal morphology was evaluated in 12 oocytes held for an interval of 2 hr between fusion and activation and 14 oocytes held for an interval of 4 hr. Three hundred seventy-six and 288 embryos were transferred to 23 and 16 surrogates for the 2 and 4 hr interval groups, respectively. Both the male (two pregnant surrogates gave birth to three puppies) and female (one pregnant surrogate gave birth to one puppy) donor cells gave birth to live puppies (P,>,0.05). In the 2 hr group, significantly more reconstructed oocytes showed condensed, metaphase-like chromosomes compared to the 4 hr group (P,<,0.05). A significantly higher pregnancy rate and a greater number of live born puppies were observed in the 2 hr group (13.0% and 1.1%, respectively) compared to the 4 hr group (0%) (P,<,0.05). In total, three surrogate dogs carried pregnancies to term and four puppies were born. These results demonstrate that decreasing the interval between fusion and activation increases the success rate of clone production and pregnancy. These results may increase the overall efficiency of SCNT in the canine family. Mol. Reprod. Dev. 76: 483,489, 2009. © 2008 Wiley-Liss, Inc. [source] Molecular Reproduction & Development: Volume 76, Issue 2MOLECULAR REPRODUCTION & DEVELOPMENT, Issue 2 2009Article first published online: 29 DEC 200 Reconstructed rat embryos. Cloned rat embryos were created by cumulus cell nuclear transfer followed by electrofusion. These individuals were imaged after overnight in vitro culture. See the accompanying article by Popova et al. in this issue. [source] Embryotropic effect of insulin-like growth factor (IGF)-I and its receptor on development of porcine preimplantation embryos produced by in vitro fertilization and somatic cell nuclear transferMOLECULAR REPRODUCTION & DEVELOPMENT, Issue 1 2005Sue Kim Abstract Insulin-like growth factor (IGF)-I is a receptor-mediated autocrine/paracrine growth/survival factor for mammalian embryo development. The present study investigated the temporal expression and regulation of porcine IGF-I receptor (IGF-IR) mRNA and the role of IGF-I on development of porcine in vitro fertilized (IVF) and somatic cell nuclear transfer (SCNT) embryos. As assessed by semi-quantitative reverse transcription-polymerase chain reaction (RT-PCR), the level of IGF-IR mRNA expression was high in unfertilized oocytes, 2-cell and 4-cell embryos and gradually decreased in 8-cell embryos, morulae, and blastocysts in both IVF and SCNT series. The IVF or SCNT embryos were cultured with 0, 1, 10, 50, or 100 ng/ml IGF-I for 168 hr. Supplementing with 50 ng/ml IGF-I increased blastocyst formation and the number of cells in inner cell masses (ICMs) in both IVF and SCNT embryos. In a second experiment, more blastocysts were obtained when IVF or SCNT embryos were cultured for the first 48 hr or for the entire 168 hr with 50 ng/ml IGF-I compared to culturing without IGF-I for 48 hr or with IGF-I for the last 120 hr or without IGF-I for the entire 168 hr. Treating IVF or SCNT embryos with 50 ng/ml IGF-I significantly up-regulated IGF-IR mRNA compared to untreated control embryos. In conclusion, the present study demonstrated that IGF-IR mRNA is expressed in porcine IVF and SCNT embryos, and that IGF-I improved the developmental competence of IVF and SCNT embryos through its specific receptors. Mol. Reprod. Dev. © 2005 Wiley-Liss, Inc. [source] Ovine ooplasm directs initial nucleolar assembly in embryos cloned from ovine, bovine, and porcine cellsMOLECULAR REPRODUCTION & DEVELOPMENT, Issue 2 2004Hamish M. Hamilton Abstract Here we present ultrastructural and immunocytochemical evidence that ovine ooplasm is directing the initial assembly of the nucleolus independent of the species of the nuclear donor. Intergeneric porcine,ovine somatic cell nuclear transfer (SCNT) and intrageneric ovine,ovine SCNT embryos were constructed and the nucleolus ultrastructure and nucleolus associated rRNA synthesis examined in 1-, 2-, 4-, early 8-, late 8-, and 16-cell embryos using transmission electron microscopy (TEM) and light microscopical autoradiography. In addition, immunocytochemical localization by confocal microscopy of nucleolin, a key protein involved in processing rRNA transcripts, was performed on early 8-, late 8-, and 16-cell embryos for both groups of SCNT embryos. Intergeneric porcine,ovine SCNT embryos exhibited nucleolar precursor bodies (NPBs) of an ovine (ruminant) ultrastructure, but no active rRNA producing fibrillo-granular nucleoli at any of the stages. Unusually, cytoplasmic organelles were located inside the nucleus of two porcine,ovine SCNT embryos. The ovine,ovine SCNT embryos, on the other hand, revealed fibrillo-granular nucleoli in 16-cell embryos. In parallel, autoradiographic labeling over the nucleoplasm, and in particular, the nulcleoli was detected. Bovine,ovine SCNT embryos at the eight-cell stage were examined for nucleolar morphology and exhibited ruminant-type NPBs as well as structures that appeared as fibrillar material surrounded by a rim of electron dense granules, perhaps formerly of nucleolar origin. Nucleolin was localized throughout the nucleoplasm and with particular intensity around the presumptive nucleolar compartments for all developmental stages examined in porcine,ovine and ovine,ovine SCNT embryos. In conclusion, this study suggests that factors within the ovine ooplasm are playing a role in the initial assembly of the embryonic nucleolus in intrageneric SCNT embryos. Mol. Reprod. Dev. 69: 117,125, 2004. © 2004 Wiley-Liss, Inc. [source] Can diabetes be cured by therapeutic cloning?PEDIATRIC DIABETES, Issue 2004Ahmi Ben-Yehudah Abstract:, With the increasing incidence of diabetes mellitus (DM), it is imperative to develop novel treatments. Stem cells offer the potential for use as renewable sources of glucose-responsive, insulin-secreting cells. However, developing a consistent protocol to enrich ,-cells is not a trivial issue. The question whether embryonic, fetal, or adult stem cells offer particular advantages as the starting material remains to be resolved experimentally. While somatic cell nuclear transfer avoids many of the problems associated with heterologous transplantation, the problem of autoimmune destruction of the ,-cells in type 1 DM might still remain. This review summarizes the innovative treatment strategies for DM and considers the possible advantages and problems. [source] Protein profiles of bovine placenta derived from somatic cell nuclear transferPROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 16 2005Hong Rye Kim Abstract Practical application of animal cloning by somatic cell nuclear transfer (SCNT) has been hampered by an extremely low success rate. To address whether placental dysfunction in SCNT causes fetal loss during pregnancy, we have used a global proteomics approach using 2-DE and MS to analyze the differential protein patterns of three placentae from the afterbirth of cases of postnatal death, derived from SCNT of Korean Native cattle, and three normal placentae obtained from the afterbirth of fetuses derived from artificial insemination. Proteins within a pI range of 4.0,7.0 and 6.0,9.0 were analyzed separately by 2-DE in triplicate. A total of approximately 2000 spots were detected in placental 2-DE gels stained with CBB. In the comparison of normal and SCNT samples, 60 spots were identified as differentially expressed proteins, of which 33 spots were up-regulated proteins in SCNT placentae, while 27 spots were down-regulated proteins. Most of the proteins identified in this analysis appeared to be related with protein repair or protection, cytoskeleton, signal transduction, immune system, metabolism, extracellular matrix and remodeling, transcription regulation, cell structure or differentiation and ion transport. One of up-regulated proteins in SCNT was TIMP-2 protein known to be related to extracellular matrix and remodeling during pregnancy. Western blot analysis showed an increased level of TIMP-2 in SCNT placenta compared to normal. Our results revealed composite profiles of key proteins involved in abnormal placenta derived from SCNT, and suggested expression abnormality of these genes in SCNT placenta, resulting in fetal losses following SCNT. [source] Influence of Ovulation Status, Seasonality and Embryo Transfer Method on Development of Cloned Porcine EmbryosREPRODUCTION IN DOMESTIC ANIMALS, Issue 5 2010OJ Koo Contents To improve pig cloning efficiency, the present study evaluated the effect of ovulation status, seasonality and embryo transfer (ET) method on in vivo development of cloned porcine embryos. Cloned embryos were transferred to surrogate mothers on the same day of somatic cell nuclear transfer. In pre-ovulation stage (PO), pregnancy rate (PR) and delivery rate (DR) were 36.3% and 9.4%, respectively. In post-ovulation stage, 22.7% PR and 2.1% DR were recorded (both PR and DR are significantly higher in PO). When ET was performed during winter (December,February), spring (March,May), summer (June,August) and autumn (September,November), the PRs were 13.4%, 37.3%, 24.6% and 51.0%, while DRs were 0%, 12.7%, 4.3% and 7.8%, respectively. The highest PRs were recorded in autumn groups. However, DRs were significantly lower in autumn (7.8%) group compared with spring (12.7%) group. The PR was the lowest and no piglets were born in winter group, which might be because of the effect of low temperature during ET. To overcome the low PR in winter group, 0.25 ml straws were used for ET to minimize exposure time of embryos to ambient temperature. The straw ET group showed significantly higher PR in the winter group (23. 9%) compared with the conventional catheter-loading group (7.7%). We suggest that using PO recipient and ET in spring is the best condition for pig cloning. In addition, alternative method to reduce cold shock during ET in winter is necessary. [source] Abnormal Expression of TIMP-2, SOD, Vimentin and PAI Proteins in Cloned Bovine PlacentaeREPRODUCTION IN DOMESTIC ANIMALS, Issue 4 2009H-R Kim Contents Cloned mammals suffer from high rates of placental abnormality and foetal loss during pregnancy. We previously used 2-D gel electrophoresis and mass spectrometry for global proteomic analysis of cloned and normal bovine placentae to identify differential protein expression patterns. Here, we used Western blot analysis to confirm the expression levels of several pregnancy-related proteins putatively identified as being differentially expressed in somatic cell nuclear transfer (SCNT) vs normal bovine placentae. The expression levels of tissue inhibitor of metalloproteinase-2 (TIMP-2), its downstream protein, matrix metalloproteinase-2 (MMP-2), superoxide dismutase (SOD), vimentin and plasminogen activator inhibitor-1 (PAI) were analysed in the placentae of SCNT cloned Korean native cattle that died immediately after birth and in normal placentae obtained by AI. Our results revealed that TIMP-2 and SOD were up-regulated in SCNT placenta compared with normal placenta, whereas MMP-2 levels were comparable in cloned and normal placentae, and vimentin and PAI were significantly down-regulated in SCNT compared with normal placentae. Our results suggest that key proteins of placental development are abnormally expressed in SCNT cloned bovine placentae, probably resulting in abnormal placental function and clonal mortality. [source] Expression of Interferon-tau mRNA in Bovine Embryos Derived from Different ProceduresREPRODUCTION IN DOMESTIC ANIMALS, Issue 1 2009N Yao Contents Interferon-tau (IFN-,) is a secreted conceptus protein which plays a critical role in the establishment of ruminant pregnancy by its antiluteolytic and antiviral effects. In the present study, we hypothesized that IFN-, expression was temporally and spatially regulated in different pre-implantation embryos and the levels of IFN-, expression were different among bovine embryos derived from parthenogenetic activation (PA), in vitro fertilization (IVF) and somatic cell nuclear transfer (SCNT). By using in situ hybridization with Digoxingenin (DIG)-labelled IFN-, cDNA as a probe, we detected IFN-, mRNA in bovine embryos from days 3 to 9 in culture. However, the timing of the initiation of IFN-, mRNA expression was different among PA, IVF and SCNT embryos. Interferon-, mRNA was first expressed in 16-cell stage IVF embryos on day 4, in SCNT morula on day 5 and early PA blastocyst on day 6. Semi-quantitative RT-PCR analysis showed that the expression levels of IFN-, mRNA did not differ significantly among IVF, SCNT and PA embryos on day 7. In addition, freezing and thawing did not have a major impact either on IFN-, mRNA expression in IVF or in vivo -produced bovine blastocysts. [source] Early Pregnancy Diagnosis by Serum Progesterone and Ultrasound in Sheep Carrying Somatic Cell Nuclear Transfer-Derived PregnanciesREPRODUCTION IN DOMESTIC ANIMALS, Issue 2 2008B Alexander Contents Early pregnancy diagnosis and monitoring play an important role following embryo transfer in sheep. The aims of the current study were to investigate (i) the pattern of serum progesterone profiles in sheep carrying somatic cell nuclear transfer (SCNT)-derived (clone) pregnancies, and (ii) the frequency of pregnancy loss during development following SCNT embryo transfer. Sheep SCNT embryos were made using standard nuclear transfer techniques. Day 7 embryos were surgically transferred to oestrus-synchronized recipients (n = 27). As a control, normal fertile ewes (n = 12) were bred by natural breeding. Serum was collected from all the ewes on the day of estrus (day 0 sample), 7 days post-estrus (day 7 sample) and 19 days post-estrus (day 19 sample) and every 10 days thereafter until lambing or pregnancy loss occurred. Serum progesterone (P4) was assessed using enzyme immunoassay. Pregnancy was confirmed by ultrasound scanning on day 35 of pregnancy followed by subsequent scanning every 10 days. In control ewes, pregnancy rate on day 35 was 83.3% (10/12), whereas in the ewes that received SCNT embryos, it was 22.2% (6/27; p < 0.05). The day 45 pregnancy rate in the control ewes was 83.3%, whereas in the SCNT embryo recipients it was 11.0% (p < 0.05). Hormone analysis revealed that SCNT embryo recipients exhibited a significantly lower P4 profiles at different time points in pregnancy compared to controls (p < 0.05). This study highlights the use of serum progesterone in combination with ultrasound for the investigation of embryo loss and crucial times during development of normal and SCNT embryos in sheep. Further, the serum P4 levels directly reflect the degree of placental development in these two groups. [source] Cloning Adult Farm Animals: A Review of the Possibilities and Problems Associated with Somatic Cell Nuclear TransferAMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 2 2003J. L. Edwards In 1997, Wilmut et al. announced the birth of Dolly, the first ever clone of an adult animal. To date, adult sheep, goats, cattle, mice, pigs, cats and rabbits have been cloned using somatic cell nuclear transfer. The ultimate challenge of cloning procedures is to reprogram the somatic cell nucleus for development of the early embryo. The cell type of choice for reprogramming the somatic nucleus is an enucleated oocyte. Given that somatic cells are easily obtained from adult animals, cultured in the laboratory and then genetically modified, cloning procedures are ideal for introducing specific genetic modifications in farm animals. Genetic modification of farm animals provides a means of studying genes involved in a variety of biological systems and disease processes. Moreover, genetically modified farm animals have created a new form of ,pharming' whereby farm animals serve as bioreactors for production of pharmaceuticals or organ donors. A major limitation of cloning procedures is the extreme inefficiency for producing live offspring. Dolly was the only live offspring produced after 277 attempts. Similar inefficiencies for cloning adult animals of other species have been described by others. Many factors related to cloning procedures and culture environment contribute to the death of clones, both in the embryonic and fetal periods as well as during neonatal life. Extreme inefficiencies of this magnitude, along with the fact that death of the surrogate may occur, continue to raise great concerns with cloning humans. [source] Effects of trichostatin A on in vitro development and transgene function in somatic cell nuclear transfer embryos derived from transgenic Clawn miniature pig cellsANIMAL SCIENCE JOURNAL, Issue 5 2010Takehiro HIMAKI ABSTRACT The present study was carried out to examine the effects of post-activation treatment of trichostatin A (TSA), a histone deacetylase inhibitor, on in vitro development and transgene function of somatic cell nuclear transfer (SCNT) embryos derived from Clawn miniature pig embryonic fibroblast (PEF) transfected with a bacterial endo-,-galactosidase C gene (removal of the ,-galactosyl (Gal) epitope). SCNT embryos were incubated with or without TSA (50 or 100 nmol/L) after activation, cultured in vitro and assessed for cleavage, blastocyst formation and transgene function. The rate of blastocyst formation was significantly higher in SCNT embryos treated with 50 nmol/L TSA than that in control (P < 0.05), whereas the rate of cleavage and cell number of blastocyst did not differ. Following labelling with fluorescein isothiocyanate-labelled BS-I-B4 isolectin, the intensity of fluorescence observed on cell-surface was dramatically reduced in transgenic SCNT blastocyst in comparison with non-transgenic SCNT blastocyst. However, the reduction of ,-Gal epitope expression in transgenic SCNT blastocyst was not affected by TSA treatment. The results of this study showed that post-activation treatment with 50 nmol/L TSA is effective to improve in vitro developmental capacity of transgenic SCNT miniature pig embryos without the modification of transgene function. [source] Stage-specific effects of osmolarity of a culture medium on development of pig oocytes and miniature pig somatic cell nuclear transfer embryos activated by ultrasound treatmentANIMAL SCIENCE JOURNAL, Issue 4 2010Yamato MIZOBE ABSTRACT Whether high osmolarity of a culture medium at the early culture stage affects the development of pig oocytes and miniature pig somatic cell nuclear transfer (SCNT) embryos activated by ultrasound was examined. When oocytes were cultured in modified porcine zygote medium-3 (mPZM-3) with increased NaCl to 138 mmol/L (mPZM-3+NaCl; 326 mOsm) or 50 mmol/L sucrose (mPZM-3+sucrose; 318 mOsm) for the first 2 days and then cultured in normal mPZM-3 (273 mOsm) for 5 days, the cleavage and blastocyst formation rates were significantly (P < 0.05) higher than those of oocytes cultured in mPZM-3 for 7 days. The cleavage and blastocyst formation rates of SCNT embryos cultured in mPZM-3+NaCl for the first 2 days and then cultured in mPZM-3 for 5 days were also significantly (P < 0.05) higher than those of embryos cultured in mPZM-3 for 7 days. These results showed that the high osmolarity of a culture medium induced by increasing NaCl concentration during the first 2 days improves the development of pig oocytes and miniature pig SCNT embryos activated by ultrasound. [source] Early metaphase II oocytes treated with dibutyryl cyclic adenosine monophosphate provide suitable recipient cytoplasm for the production of miniature pig somatic cell nuclear transfer embryosANIMAL SCIENCE JOURNAL, Issue 1 2010Satoshi SUGIMURA ABSTRACT We investigated the effects of in vitro maturation duration and treatment with dibutyryl cyclic adenosine monophosphate (dbcAMP) on the blind enucleation efficiency and developmental competence of miniature pig somatic cell nuclear transfer (SCNT) embryos. Oocytes were cultured for 22 h in NCSU-23 medium with or without 1 mM dbcAMP and then additionally cultured in dbcAMP-free NCSU-23 for 14, 18, or 22 h. Regardless of dbcAMP treatment, the rate of nuclear maturation reached a plateau at 36 and 40 h. However, mitochondrial distribution, a marker for cytoplasmic maturation, differed between the dbcAMP-untreated oocytes at 36 h and dbcAMP-treated oocytes at 40 h. The metaphase II chromosomes were adjacent to the first polar body in 68.8% and 63.5% of the dbcAMP-untreated oocytes at 36 h and dbcAMP-treated oocytes at 40 h, respectively. Furthermore, the blind enucleation efficiency by removing a small volume of cytoplasm was significantly higher in the dbcAMP-untreated oocytes at 36 h (82.9%) and dbcAMP-treated oocytes at 40 h (89.9%) than other groups. The rate of blastocyst formation was highest in the dbcAMP-treated oocytes at 40 h. Hence, this study demonstrated that dbcAMP-treated early metaphase II oocytes are suitable for the production of miniature pig SCNT embryos. [source] Death losses due to stillbirth, neonatal death and diseases in cloned cattle derived from somatic cell nuclear transfer and their progeny: a result of nationwide survey in JapanANIMAL SCIENCE JOURNAL, Issue 3 2009Shinya WATANABE ABSTRACT To obtain the data concerning death losses due to stillbirth, neonatal death and diseases in cloned cattle derived from somatic cell nuclear transfer (SCNT) and their progeny produced by Japanese institutions, a nationwide survey was carried out in July-August, 2006. As a result, lifetime data concerning 482 SCNT cattle (97.5% of cattle produced in the country at that time) and 202 progeny of SCNT cattle were accumulated and the death loss of these cattle was analyzed. Although 1/3 of delivered SCNT calves died during the perinatal period due to stillbirth and neonatal death, incidence of death loss due to diseases in SCNT cattle surviving more than 200 days after birth seems to be the same as these in conventionally bred cattle. In contrast, progeny of SCNT cattle showed the same level in death loss as observed in conventionally bred cattle throughout their lifetime. These results suggest that robust health would be expected in SCNT cattle surviving to adulthood and their progeny. [source] |