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1.
Silver staining technique visualizing argentophilic nucleolus organizer regions (Ag-NORs) was used for studying parthenogenetic mouse embryos produced by artificial activation of oocytes in Ca(2+)-Mg(2+)-free medium. Ag-NOR-containing chromosomes were detected in metaphases of parthenogenetic embryos during six successive cleavage divisions starting with the two-cell stage. The frequency of metaphases with varying AG-NOR number in diploid parthenogenones was similar to that in the control (fertilized) embryos. Average number of metaphase Ag-NOR chromosomes (calculated per diploid chromosome set) in haploid parthenogenones exceeded that in the control; in some cases all NORs were stained by silver. This is evidence that latent ribosomal cistrons in some chromosomes can be activated.  相似文献   

2.
The lack of a paternal genome in parthenogenetic embryos clearly limits their postimplantation development, but apparently not their preimplantation development, since morphologically normal blastocysts can be formed. The cleavage rate of these embryos during the preimplantation period gives a better indication of the influence of their genetic constitution than blastocyst formation. Conflicting results from previous studies prompted us to use a more suitable method of following the development of haploid and diploid parthenogenetic embryos during this period. Two classes of parthenogenetic embryos were analysed following the activation of oocytes in vitro with 7% ethanol: 1) single pronuclear (haploid) embryos and 2) two pronuclear (diploid) embryos. Each group was then transferred separately during the afternoon to the oviducts of recipients on the 1st day of pseudopregnancy. Control (diploid) 1-cell fertilised embryos were isolated in the morning of finding a vaginal plug, and transferred to pseudopregnant recipients at approximately the same time of the day as the parthenogenones. Embryos were isolated at various times after the HCG injection to induce ovulation, from each of the three groups studied. Total cell counts were made of each embryo, and the log mean values were plotted against time. The gradient of the lines indicated that 1) the cell doubling time of the diploid parthenogenones was 12.25 +/- 0.34 h, and was not significantly different from the value obtained for the control group (12.74 +/- 1.17 h), and that 2) the cell doubling time of the haploid parthenogenones (15.25 +/- 0.99 h) was slower than that of the diploid parthenogenones and the control diploid group.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

3.
Park CH  Uh KJ  Mulligan BP  Jeung EB  Hyun SH  Shin T  Ka H  Lee CK 《PloS one》2011,6(7):e22216
In the present study quantitative real-time PCR was used to determine the expression status of eight imprinted genes (GRB10, H19, IGF2R, XIST, IGF2, NNAT, PEG1 and PEG10) during preimplantation development, in normal fertilized and uniparental porcine embryos. The results demonstrated that, in all observed embryo samples, a non imprinted gene expression pattern up to the 16-cell stage of development was common for most genes. This was true for all classes of embryo, regardless of parental-origins and the direction of imprint. However, several differentially expressed genes (H19, IGF2, XIST and PEG10) were detected amongst the classes at the blastocyst stage of development. Most interestingly and despite the fact that maternally and paternally expressed genes should not be expressed in androgenones and parthenogenones, respectively, both uniparental embryos expressed these genes when tested for in this study. In order to account for this phenomenon, we compared the expression patterns of eight imprinted genes along with the methylation status of the IGF2/H19 DMR3 in haploid and diploid parthenogenetic embryos. Our findings revealed that IGF2, NNAT and PEG10 were silenced in haploid but not diploid parthenogenetic blastocysts and differential methylation of the IGF2/H19 DMR3 was consistently observed between haploid and diploid parthenogenetic blastocysts. These results appear to suggest that there exists a process to adjust the expression status of imprinted genes in diploid parthenogenetic embryos and that this phenomenon may be associated with altered methylation at an imprinting control region. In addition we believe that imprinted expression occurs in at least four genes, namely H19, IGF2, XIST and PEG10 in porcine blastocyst stage embryos.  相似文献   

4.
Androgenetic embryos are useful model for investigating the contribution of the paternal genome to embryonic development. Little work has been done with androgenetic embryo production in domestic animals. The aim of this study was the production of diploid androgenetic sheep embryos. In vitro matured sheep oocytes were enucleated and fertilized in vitro; parthenogenetic and normally fertilized embryos were also produced as a control. Fifteen hours after in vitro fertilization (IVF), presumptive zygotes were centrifuged and scored for the number of pronucleus. IVF, parthenogenetic, and androgenetic embryos (haploid, diploid, and triploid) were cultured in SOFaa medium with bovine serum albumin (BSA). The proportion of oocytes with polyspermic fertilization increased linearly with increasing sperm concentration. After IVF, there was no significant difference in early cleavage and morula formation rates between the groups, while there was a significant difference on blastocyst development between IVF, parthenogenetic, and androgenetic embryos, the last ones displaying poor developmental potential (IVF, parthenogenetic, and haploid, diploid, and triploid androgenetic embryos: 43%, 38%, 0%, 2%, and 2%, respectively). In order to boost androgenetic embryonic development, we produced diploid androgenetic embryos through pronuclear transfer. Single pronuclei were aspirated with a bevelled pipette from haploid or diploid embryos and transferred into the perivitelline space of other haploid embryos, and the zygotes were reconstructed by electrofusion. Fusion rates approached 100%. Pronuclear transfer significantly increased blastocyst development (IVF, parthenogenetic, androgenetic: Diploid into Haploid, and Haploid into Haploid: 42%, 42%, 19%, and 3%, respectively); intriguingly, the Haploid + Diploid group showed the highest development to blastocyst stage. The main findings of our study are: (1) sheep androgenetic embryos display poor developmental ability compared with IVF and parthenogenetic embryos; (2) diploid androgenetic embryos produced by pronuclear exchange developed in higher proportion to blastocyst stage, particularly in the Diploid-Haploid group. In conclusion, pronuclear transfer is an effective method to produce sheep androgenetic blastocysts.  相似文献   

5.
Studies were made on the contribution of haploid-derived parthenogenetic cells to haploid parthenogenetic ? fertilized chimeric embryos on day 9 and 10 of pregnancy. In most cases, the contribution of haploid-derived parthenogenetic cells to embryonic tissues was higher than that to extraembryonic tissues. The contribution of haploid-derived cells to embryonic tissues of some chimeras was more than 90%. Chromosomal analysis showed that actively dividing cells in most chimeric embryos contained about 40 chromosomes, indicating that they were diploidized, as haploid parthenogenetic blastocysts have about 20 chromosomes. Results suggested that haploid-derived parthehogenetic cells in chimeric embryos diploidized spontaneously after the blastocyst stage. These cells were capable of differentiating into most cell types of embryonic tissues, but scarcely differentiated into extraembryonic tissues of day 9 embryos. The fate of haploid-derived parthenogenetic cells during postimplantational development was similar to that of diploid parthenogenetic cells that had been diploidized experimentally in the one-cell stage.  相似文献   

6.
Cloned mouse embryos display a marked preference for glucose-containing culture medium, with enhanced development to the blastocyst stage in glucose-containing medium attributable mainly to an early beneficial effect during the first cell cycle. This early beneficial effect of glucose is not displayed by parthenogenetic, fertilized, or tetraploid nuclear transfer control embryos, indicating that it is specific to diploid clones. Precocious localization of the glucose transporter SLC2A1 to the cell surface, as well as increased expression of glucose transporters and increased uptake of glucose at the one- and two-cell stages, is also seen in cloned embryos. To examine the role of glucose in early cloned embryo development, we examined glucose metabolism and associated metabolites, as well as mitochondrial ultrastructure, distribution, and number. Clones prepared with cumulus cell nuclei displayed significantly enhanced glucose metabolism at the two-cell stage relative to parthenogenetic controls. Despite the increase in metabolism, ATP content was reduced in clones relative to parthenotes and fertilized controls. Clones at both stages displayed elevated concentrations of glycogen compared with parthenogenetic controls. There was no difference in the number of mitochondria, but clone mitochondria displayed ultrastructural alterations. Interestingly, glucose availability positively affected mitochondrial structure and localization. We conclude that cloned embryos may be severely compromised in terms of ATP-dependent processes during the first two cell cycles and that glucose may exert its early beneficial effects via positive effects on the mitochondria.  相似文献   

7.
The effect of transforming growth factor alpha (TGF alpha) on the development of diploid parthenogenetic mouse embryos (CBA x C57BL/6)F1 was studied. The embryos were in vitro treated with the TGF alpha at the stage of morula. Upon reaching the blastocyst stage, each embryo was implanted into uterus of a pseudopregnant female. At a dose of 5 ng/ml, the TGF alpha was found to improve development of parthenogenetic embryos before implantation, increase significantly the number of developing blastocysts, and promote embryo implantation into uterus. After treatment with TGF alpha at a dose of 10 ng/ml, 4% of parthenogenetic embryos reached the stage of 30-45 somites and had forelimb and hindlimb buds; the embryo size from vertex to sacrum was 2.0 to 3.8 mm. A well-developed placenta was observed in 6% of TGF alpha-treated parthenogenetic embryos that reached the somite stages. In the parthenogenetic embryos with the most prominent development (42-45 somites) treated with 10 ng/ml of TGF alpha, the placental diameter was 4.0 to 4.2 mm on day 12 of gestation, which is close to the placental size of the normal (fertilized) 11-day-old mouse embryos. Our results suggest that endogenous TGF alpha can modulate the effects of genomic imprinting significantly improving formation of trophoblast derivatives and promoting longer postimplantation development of parthenogenetic embryos.  相似文献   

8.
In certain extraembryonic tissues of normal female mouse conceptuses, X-chromosome-dosage compensation is achieved by preferential inactivation of the paternally derived X. Diploid parthenogenones have two maternally derived X chromosomes, hence this mechanism cannot operate. To examine whether this contributes to the inviability of parthenogenones, XO and XX parthenogenetic eggs were constructed by pronuclear transplantation and their development assessed after transfer to pseudopregnant recipients. In one series of experiments, the frequency of postimplantation development of XO parthenogenones was much higher than that of their XX counterparts. This result is consistent with the possibility that two maternally derived X chromosomes can contribute to parthenogenetic inviability at or very soon after implantation. However, both XO and XX parthenogenones showed similar developmental abnormalities at the postimplantation stage, demonstrating that parthenogenetic inviability is ultimately determined by the possession of two sets of maternally derived autosomes.  相似文献   

9.
Diploid parthenogenetic postimplantation mouse embryos, containing two maternal genomes, are characterized by poor development of extraembryonic membranes derived from the trophectoderm and primitive endoderm of the blastocyst. This is thought to be caused by a deficiency of expression of paternally derived imprinted genes. Here we have compared the inner cell mass, from which the primitive endoderm and fetal lineages are derived, and the trophectoderm, which forms a major component of the placenta, in parthenogenetic and fertilized preimplantation embryos. We have also studied the metabolism from the 1-cell to the blastocyst stage. Cell numbers were reduced in the ICM and TE of parthenogenetic blastocysts compared to fertilized blastocysts. This was thought to be due to the increased levels of cell death observed in these lineages. Pyruvate and glucose uptake by parthenogenetic embryos was similar to that by fertilized embryos throughout preimplantation development. However, at the expanded blastocyst stage glucose uptake by parthenogenetic embryos was significantly higher than by fertilized embryos. The implications of the actions of imprinted genes and of X-inactivation is discussed. © 1996 Wiley-Liss, Inc.  相似文献   

10.
Early development and X-chromosome inactivation were studied in ethanol-induced mouse parthenogenones. About 24% of oocytes transferred to 0.5-day pseudopregnant recipients successfully implanted. However, only 49%, 20%, and 16% of implanted parthenogenones survived 5, 6, and 7 days later, respectively. Abnormal development was evident in every parthenogenone as early as 5 days after activation with the degenerating polar trophectoderm. These embryos were destined to become either small disorganized embryos or embryonic ectoderm vesicles bounded by the visceral endoderm. Only 2 of 51 representative 6- to 8-day parthenogenones sectioned had morphology of the normal egg cylinder, although growth retardation was evident. Spontaneous LT/Sv parthenogenones shared similar morphological features. In late blastocysts, the frequency of cells with an apparently inactivated X chromosome was lower in parthenogenones than in fertilized embryos. The failure of X-inactivation in the trophectoderm seems to contribute to the defective development of parthenogenones.  相似文献   

11.
In experiments in which diploid parthenogenetic mouse embryos cultured entirely in vitro from the one-cell stage to the blastocyst were transferred to suitable recipients and maintained in "delay" for about 3 days before implanting, about 25-40% subsequently developed to somite-containing stages. In all, over 30 such embryos were examined. Most were morphologically normal, and equivalent to fertilized development observed on the 9th-11th days of pregnancy. A few embryos, however, had neural tube abnormalities, but of greatest interest were two sets of monoamniotic monozygotic twins. It is unclear whether the twins in some way resulted from the parthenogenetic condition, or from the "delayed" state. The present examples are discussed in the context of previous observations of monozygotic twinning in the mouse and man.  相似文献   

12.
The brief exposure of recently ovulated mouse oocytes to M16 embryo culture medium supplemented with strontium chloride (M16 Sr2+) for 2-10 min was observed to induce a high incidence of parthenogenesis. A lower incidence of activation and a significant rate of oocyte degeneration was observed when oocytes were incubated in M16 Sr2+ medium for 20-60 min. The majority of the oocytes exposed to this agent for 2-10 min developed as single-pronuclear haploid parthenogenones. The incidence of this parthenogenetic class was reduced as the duration of exposure to M16 Sr2+ was increased from 2 to 30 min. Under these conditions a greater proportion of the activated oocytes developed as two-pronuclear diploid parthenogenones, due to failure of second polar body extrusion. The activation frequency and the proportionate incidence of the pathways of parthenogenetic development observed following the exposure of ovulated oocytes to calcium-free M16 medium differed significantly from that induced by exposure to M16 Sr2+. Cytogenetic analysis of the single-pronuclear haploid class of Sr(2+)-induced parthenogenones at metaphase of the first-cleavage mitosis has shown that this agent did not induce a significant increase in the incidence of chromosome segregation errors during the completion of the second meiotic division. Analysis of the developmental potential of the two-pronuclear class of diploid Sr(2+)-induced parthenogenones during the preimplantation stages of embryogenesis revealed that their cell number and rate of cell division were less than those of fertilised embryos retained either in vivo or in vitro. The novel methods of activating oocytes indicated in this study present new opportunities to improve the efficiency of embryo cloning techniques with the ruminant species.  相似文献   

13.
Aneuploidy underlies failed development and possibly apoptosis of some preimplantation embryos. We employed a haploid model in the mouse to study the effects of aneuploidy on apoptosis in preimplantation embryos. Mouse metaphase II oocytes that were activated with strontium formed haploid parthenogenetic embryos with 1 pronucleus, whereas activation of oocytes with strontium plus cytochalasin D produced diploid parthenogenetic embryo controls with 2 pronuclei. Strontium induced calcium transients that mimic sperm-induced calcium oscillations, and ploidy was confirmed by chromosomal analysis. Rates of development and apoptosis were compared between haploid and diploid parthenogenetic embryos (parthenotes) and control embryos derived from in vitro fertilization (IVF). Haploid mouse parthenotes cleaved at a slower rate, and most arrested before the blastocyst stage, in contrast to diploid parthenotes or IVF embryos. Developmentally retarded haploid parthenotes exhibited apoptosis at a significantly higher frequency than did diploid parthenotes or IVF embryos. However, diploid parthenotes exhibited rates of preimplantation development and apoptosis similar to those of IVF embryos, indicating that parthenogenetic activation itself does not initiate apoptosis during preimplantation development. These results suggest that haploidy can lead to an increased incidence of apoptosis. Moreover, the initiation of apoptosis during preimplantation development does not require the paternal genome.  相似文献   

14.
Mouse one-cell embryos were taken 1, 1.5, 2, 3, 4, 6, 8, 10, 13 and 18 h after insemination. One-cell parthenogenones were induced by treatment of mouse eggs obtained 20 h after HCG injection with hyaluronidase and cultured for 0.5, 1, 3, 4.5, 6, 8, 10, 12 and 24 h. Some parthenogenones were pulse-labelled with tritiated thymidine, cut and autoradiographed. Both the embryos and parthenogenones were Feulgen-stained, and integrated relative optical absorption of either pronuclei or nuclei of polar bodies was measured with a cytophotometer. In some fertilized eggs and parthenogenones the DNA synthesis sets in 4–6 h after either insemination or parthenogenetic stimulus. Between the 8th and 13th hour after insemination the fraction of DNA synthesizing embryonic pronuclei remained at the level 30–40%. Most parthenogenones duplicated their DNA content between the 8th and 12th hour after hyaluronidase treatment. The DNA synthesis time in pronuclei of embryos was determined to be 3.5–4.0 h and that of pronuclei of parthenogenones approx. 4 h. The minimal time of the G2 phase was estimated to be 3–5 h. The first labelled pronuclei of parthenogenones were detected 6 h after stimulus. Male pronuclei started and ended DNA synthesis earlier than female pronuclei. Differences in the DNA content between pronuclei of the parthenogenones (when there are two in one parthenogenone) were observed beginning with the 10th h after hyaluronidase treatment.The DNA content in the nuclei of the second polar bodies (PB) of embryos increased slowly between the 8th and 22nd hour after insemination, up to an overall value of 1.4 C. That of the nuclei of the polar bodies of parthenogenones accompanied the synthesis of DNA in pronuclei to the 10th hour after hyaluronidase treatment, up to an overall value of 1.4 C.  相似文献   

15.
The developmental capability of haploid parthenogenetic cells was investigated by studies on haploid parthenogenetic in equilibrium fertilized mouse chimeras. Two chimeras were born. One female chimera was smaller at birth and grew slower than its littermates. The distribution of haploid-derived cells in the chimeras was analyzed 11 months after their birth. Cells derived from haploid embryos were found only in the brain, eyes, pigment cells in hair follicles, and spleen, in which they constituted 30%, 20%, 10%, and less than 5%, respectively, of the cells. The correlation between the parthenogenetic contribution to the brain and growth retardation is discussed. All of the cells examined in these chimeric organs (brain and eyes) contained a diploid amount of DNA, suggesting that diploidization of the haploid parthenogenetic cells occurred during development. Possibly, the haploid state is not sufficient for cell growth, even in chimeras with fertilized embryos.  相似文献   

16.
Glucose phosphate isomerase (GPI) allozymes were compared in eggs and embryos of the mouse strains C57BL/6-JHan (GPI-1BB) and 129/Sv (GPI-1AA) under different experimental conditions. The quantitative differences in eggs of the two strains disappeared by the blastocyst stage at day 4 to 5, both in fertilized and diploid parthenogenetic embryos. The degree of degradation of oocyte-coded enzyme molecules and the activation of the embryonic genome for GPI appeared to be equivalent in parthenogenetic embryos from heterozygous females when only one or other maternal allele type remained in the egg after meiosis. Also in tetraploid embryos, generated by electrofusion of homozygous fertilized eggs from the two strains, both genomes seemed to be activated at the same time at day 4; here, however, the GPI-1BB allozyme remained predominant up to day 6.  相似文献   

17.
Several research groups have suggested that the embryonic-abembryonic (Em-Ab) axis in the mouse can be predicted by the first cleavage plane of the early embryo. Currently, it is not known whether this early patterning occurs in cloned embryos produced by nuclear transfer and whether it affects development to term. In this work, the relationship between the first cleavage plane and the Em-Ab axis was determined by the labeling of one blastomere in cloned mouse embryos at the 2-cell stage, followed by ex-vivo tracking until the blastocyst stage. The results demonstrate that approximately half of the cloned blastocysts had an Em-Ab axis perpendicular to the initial cleavage plane of the 2-cell stage. These embryos were classified as "orthogonal" and the remainder as "deviant". Additionally, we report here that cloned embryos were significantly more often orthogonal than their naturally fertilized counterparts and overexpressed Sox2. Orthogonal cloned embryos demonstrated a higher rate of post-implantation embryonic development than deviant embryos, but cloned pups did not all survive. These results reveal that the angular relationship between the Em-Ab axis and the first cleavage plane can influence later development and they support the hypothesis that proper early patterning of mammalian embryos is required after nuclear transfer.  相似文献   

18.
Penkov LI  Platonov ES 《Ontogenez》1999,30(6):448-452
We studied the effects of two growth factors, FGF-2 and FGF-4, on development of diploid parthenogenetic mouse embryos (CBA x C57BL/6)F1. Parthenogenetic embryos were treated with FGF-2 or FGF-4 in vitro at the morula stage and, after they reached the blastocyst stage, transplanted into the uteri of pseudopregnant females. FGF-2 and FGF-4 did not affect the number of blastocysts formed in vitro or implantation into the uterus. However, FGF-2 and FGF-4 at optimal doses decreased the mortality rate of parthenogenetic embryos at the early postimplantation stages and increased twofold the number of embryos that developed in utero to the somite stages: 42 and 36%, respectively, versus 20% in the control. The results obtained suggest that the treatment of parthenogenetic mouse embryos with FGF-2 or FGF-4 modulate the effects of genomic imprinting and prolong the development of parthenogenetic embryos at the postimplantation stages.  相似文献   

19.
Liu JH  Zhu JQ  Liang XW  Yin S  Ola SI  Hou Y  Chen DY  Schatten H  Sun QY 《Genomics》2008,91(2):121-128
Epigenetic modifications are closely associated with embryo developmental potential. One of the epigenetic modifications thought to be involved in genomic imprinting is DNA methylation. Here we show that the maternally imprinted genes Snrpn and Peg1/Mest were nearly unmethylated or heavily methylated, respectively, in their differentially methylated regions (DMRs) at the two-cell stage in parthenogenetic embryos. However, both genes were gradually de novo methylated, with almost complete methylation of all CpG sites by the morula stage in parthenogenetic embryos. Unexpectedly, another maternally imprinted gene, Peg3, showed distinct dynamics of methylation during preimplantation development of diploid parthenogenetic embryos. Peg3 showed seemingly normal methylation patterns at the two-cell and morula stages, but was also strongly de novo methylated in parthenogenetic blastocysts. In contrast, the paternally imprinted genes H19 and Rasgrf1 showed complete unmethylation of their DMRs at the morula stage in parthenogenetic embryos. These results indicate that diploid parthenogenetic embryos adopt a maternal-type methylation pattern on both sets of maternal chromosomes and that the aberrantly homogeneous status of methylation imprints may partially account for developmental failure.  相似文献   

20.
Parthenogenetic mouse embryos were obtained by the method of electrical stimulation of eggs in vivo(Tarkowski et al., 1970), and their developmental retardation and limited viability were confirmed. Very early deviations from normalcy seemed likely in these embryos, and we chose to investigate their “zona reaction,” as this is one of the earliest events identified (Braden, et al., 1954) in normal fertilization. The change, ordinarily triggered by sperm penetration of the egg, decreases the permeability of the zona pellucida to supernumerary sperms, and has been attributed (Austin and Braden, 1956) to products released by cortical granules.An indirect assay for the state of the zona pellucida is presented. It is based on the observation (Mintz, 1970) that pronase, other proteolytic enzymes, and the normal uterine zonalytic factor lyse zonas of fertilized eggs more slowly than those of unfertilized eggs. Comparative zona lysis times in pronase are thus employed as a test for the degree of zona change after parthenogenetic activation relative to that after activation by sperm.The zonas of parthenogenetic embryos in stages ranging from 2 to 14 cells varied in their lysis times in pronase and overlapped with those of unfertilized and fertilized egg zonas. As a population, the zonas of the parthenogenones had intermediate lysis times. Thus, in the strains tested, electrical shock evokes only a partial zona reaction and, in this respect, is not an adequate substitute for sperm penetration.A working hypothesis for future testing is that the subnormal zona change and retarded development may both be due to inadequate release of products from cortical granules, under these conditions of artificial activation of the mouse egg.  相似文献   

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