Germ cell nuclei of male fetal mice can support development of chimeras to midgestation following serial transplantation

Development ◽  
1995 ◽  
Vol 121 (3) ◽  
pp. 779-783 ◽  
Author(s):  
Y. Kato ◽  
Y. Tsunoda
Keyword(s):  
Germ Cells ◽  
Nuclear Transfer ◽  
Yolk Sac ◽  
Glucose Phosphate Isomerase ◽  
Cell Nuclei ◽  
Cell Stage ◽  
Glucose Phosphate ◽  
Fetal Mice ◽  
Serial Nuclear Transfer

Chimeric embryos between fertilized eggs from F1 (C57BL × CBA) and 15.5-16.5 days post coitum (dpc) male fetal germ cells (FGCs) from CD-1 strain (glucose phosphate isomerase, Gpi-1a/a) mice were produced by nuclear transfer. Briefly, a single FGC was fused with enucleated oocytes and activated, and the reconstituted oocytes were cultured to the 2-cell stage. The nucleus from the reconstituted 2-cell embryos was then transferred into an enucleated blastomere of the same stage embryos derived from F1 mice to produce chimeric embryos. The reconstituted 2-cell embryos, which synchronously divided to the 4-cell stage after treatment with nocodazole, were further cultured in vitro. Compacted morula and blastocysts were transferred to the uteri of pseudopregnant female mice. Some recipients were allowed to develop to term and the others were killed at mid gestation to analyze the contribution of donor FGC-derived cells. Survival to term was low with no chimeric animals. Glucose phosphate isomerase (GPI) analysis at midgestation revealed that some conceptuses had chimerism in the fetuses, trophoblast and yolk sac at day 10.5 of pregnancy. The contribution of donor cells was 37–47%, 19–65% and 12–63%, respectively. It was concluded that the nucleus from 15.5-16.5 dpc male fetal germ cells had the potency to develop into fetus, trophoblast and yolk sac after serial nuclear transfer with oocytes and fertilized embryos. The reason for the low viability of chimeric embryos is discussed.

47 DIFFERENTIAL DEVELOPMENTAL ABILITY OF EMBRYOS CLONED FROM TISSUE-SPECIFIC STEM CELLS

2007 ◽  
Vol 19 (1) ◽  
pp. 142
Author(s):  
K. Inoue ◽  
N. Ogonuki ◽  
H. Miki ◽  
S. Noda ◽  
S. Inoue ◽  
...  
Keyword(s):  
Stem Cells ◽  
Nuclear Transfer ◽  
Embryonic Stem ◽  
Donor Cell ◽  
Fibroblast Cell ◽  
High Rate ◽  
Full Potential ◽  
Cell Nuclei ◽  
Cell Stage

Although cloning animals by somatic cell nuclear transfer is generally an inefficient process, use of appropriate donor cell types may improve the cloning outcome significantly. Among the donor cells tested so far, mouse embryonic stem cells have given the best efficiency in terms of the development of reconstructed embryos into offspring. In this study, we examined whether 2 in vitro-produced pluripotent stem cells—neural stem cells (NSCs) and mesenchymal stem cells (MSCs)—could be better nuclear donors than other differentiated cells. Embryos were reconstructed by transfer of nuclei from NSCs or MSCs with full potential for differentiation in vitro. Most (76%) of the 2-cell NCS embryos developed to the 4-cell stage; 43% implanted and 1.6% developed to term after transfer to pseudopregnant recipients. These rates were very similar to those of embryos cloned from fibroblast cell nuclei. Interestingly, in the patterns of zygotic gene expression, NSC embryos were more similar to in vitro-fertilized embryos than fibroblast cloned embryos. By contrast, embryos reconstructed using MSC nuclei showed lower developmental ability and no implantation was obtained after embryo transfer. Chromosomal analysis of the donor MSCs revealed very high frequencies of monosomy and trisomy, which might have caused the very poor post-implantation development of embryos following nuclear transfer. Thus, in vitro-produced pluripotent cells can serve as donors of nuclei for cloning mice, but may be prone to chromosomal aberrations leading to a high rate of cloned embryo death.

Nuclear transplantation using bovine primordial germ cells from male fetuses

1995 ◽  
Vol 7 (5) ◽  
pp. 1217 ◽  
Author(s):  
F Delhaise ◽  
FJ Ectors ◽  
Roover R de ◽  
F Ectors ◽  
F Dessy
Keyword(s):  
Nuclear Transfer ◽  
Primordial Germ Cells ◽  
Blastocyst Stage ◽  
Cell Counting ◽  
Nuclear Transplantation ◽  
Cell Nuclei ◽  
Cell Stage ◽  
Developmental Potential ◽  
Morula Stage

The developmental potential of nuclei of bovine gonial cells was investigated by nuclear transfer. Gonial cells were collected from male fetuses at about 175 days post coitum (p.c.). They were fused with enucleated oocytes; reconstituted embryos were cultured in vitro for 7 days. Embryos reaching the compacted morula or blastocyst stage were either fixed for cell counting or transferred into recipients. Out of 115 oocyte-gonia fusions, 101 (87.8%) gave rise to cleaved embryos at Day 3 and 26 (22.6%) had reached the 8-cell stage. At Day 7, 1 (1%) developed to the morula stage and 5 (4%) reached the blastocyst stage. Three blastocysts were fixed and showed normal cell numbers (135; 90; 76 cells). Three blastocysts and one morula were transferred in four recipients; two recipients were pregnant at Day 21 but only one was positive at Day 35 p.c.; this last one aborted around Day 40 p.c. No conceptus was collected. These results indicate that gonial cell nuclei can be partially reprogrammed; they are able to develop into blastocysts and to initiate gestation. However, more experiments will be necessary to prove the nuclear totipotency of bovine gonial cells.

scholarly journals Effect of the number of passages of fetal and adult fibroblasts on nuclear remodelling and first embryonic division in reconstructed horse oocytes after nuclear transfer

Reproduction ◽  
2003 ◽  
pp. 535-542 ◽  
Author(s):  
X Li ◽  
JL Tremoleda ◽  
WR Allen
Keyword(s):  
Embryonic Development ◽  
Nuclear Transfer ◽  
Metaphase Plate ◽  
Donor Cell ◽  
Fibroblast Cells ◽  
Cell Nuclei ◽  
Cell Stage ◽  
Metaphase Ii Oocytes ◽  
Adult Fibroblasts

The effects of repeated passage in vitro of fetal fibroblast cells (FFC) and adult fibroblast cells (AFC) on nuclear remodelling and first embryonic division when used to reconstruct horse oocytes, and the reasons for the developmental block in progression to the two-cell stage were investigated. A total of 463 metaphase II oocytes produced 427 fibroblast-cytoplasm couplets after nuclear transfer, which finally resulted in 319 reconstructed oocytes. With increasing numbers of passages, the rates of nuclear remodelling decreased in both types of donor cell; about half of the fused donor cell nuclei showed the S-G2-prometaphase stages of the first embryonic division 18-20 h after cell-fusion treatment, irrespective of the number of donor cell passages (FFC: 49%; AFC: 53%). The rates of first embryonic division in the reconstructed oocytes fell with increasing age of the donor cells (FFC: 32%-26%-23%; AFC: 27%-23%-24%) and these rates were significantly lower than those obtained from metaphase II oocytes activated parthenogenetically (79%, P < 0.05). Microscopic analysis of the organization of the first embryonic division in the developmentally blocked oocytes reconstructed with either FFC or AFC showed that most of these (FFC: 78%; AFC: 92%) could not form the mitotic spindle and the metaphase plate of chromosomes. These findings indicate that either fetal or adult fibroblasts that have undergone relatively few passages in vitro are most suitable as donors. However, both types of cell have lower potential to restart first embryonic development after nuclear transfer than do the equivalent cells in other species. Improvement in the rate of donor cell nuclear progression from S-G2-prometaphase to beyond the metaphase stage, and the normal organization of first embryonic development in reconstructed horse oocytes, would seem to be the key to the production of cloned embryos in this species.

Investigation of the determinative state of the mouse inner cell mass

Development ◽  
1975 ◽  
Vol 33 (4) ◽  
pp. 979-990
Author(s):  
J. Rossant
Keyword(s):  
Inner Cell Mass ◽  
Cell Mass ◽  
In Utero ◽  
Glucose Phosphate Isomerase ◽  
Trophoblast Cells ◽  
Electrophoretic Variants ◽  
Glucose Phosphate

Inner cell masses (ICMs) were dissected from 3½- and 4½-day blastocysts and cultured in contact with 2½-day morulae. Blastocysts and morulae were homozygous for different electrophoretic variants of the enzyme glucose phosphate isomerase (GPI). Aggregation of ICMs and morulae was observed, and such aggregates were able to form blastocysts in vitro and morphologically normal foetuses in utero. GPI analysis of these conceptuses revealed that most were chimaeric. However, donor ICM-type isozyme was only detected in the embryonic and extra-embryonic fractions of the chimaeras and never in the trophoblastic fraction. Thus, ICM cells appear unable to form trophoblast derivatives even when exposed to ‘outside’ conditions as experienced by developing trophoblast cells. This is evidence that ICM cells, although not overtly differentiated, are determined by 3½ days.

scholarly journals In vitro development of mouse fetal germ cells into mature oocytes

Reproduction ◽  
2007 ◽  
Vol 134 (2) ◽  
pp. 223-231 ◽  
Author(s):  
Wei Shen ◽  
Lan Li ◽  
Zhaodai Bai ◽  
Qingjie Pan ◽  
Mingxiao Ding ◽  
...  
Keyword(s):  
Genomic Imprinting ◽  
Germ Cells ◽  
Follicular Development ◽  
Germinal Vesicle ◽  
Germinal Vesicle Breakdown ◽  
Primordial Follicles ◽  
Ovarian Cells ◽  
Fetal Mice ◽  
Vitro Development

Little is known about the mechanisms underlying primordial follicular formation and the acquisition of competence to resume meiosis by growing oocytes. It is therefore important to establish anin vitroexperimental model that allows one to study such mechanisms. Mouse follicular development has been studiedin vitroover the past several years; however, no evidence has been presented showing that mature oocytes can be obtained from mouse fetal germ cells prior to the formation of primordial follicles. In this study, a method has been established to obtain mature oocytes from the mouse fetal germ cells at 16.5 days postcoitum (dpc). From the initiation of primordial follicular formation to the growth of early secondary follicles, ovarian tissues from 16.5 dpc fetal mice were culturedin vitrofor 14 days. Subsequently, 678 intact secondary follicles were isolated from 182 mouse fetal ovaries and cultured for 12 days. A total of 141 oocytes inside antral follicles were maturedin vitro, and 102 oocytes underwent germinal vesicle breakdown. We found that 97 oocytes were fertilized and 15 embryos were able to form morula–blastocysts. We also analyzed various genomic imprinting markers and showed that the erasure of genomic imprinting markers in the parental generation was also imposed on the oocytes that developed from fetal germ cells. Our results demonstrate that mouse fetal germ cells are able to form primordial follicles with ovarian cells, and that oocytes within the growing follicles are able to mature normallyin vitro.

180 IDENTIFICATION AND QUANTIFICATION OF DIFFERENTIALLY REPRESENTED TRANSCRIPTS IN PREIMPLANTATION BOVINE EMBRYOS

2008 ◽  
Vol 20 (1) ◽  
pp. 169 ◽  
Author(s):  
C. E. McHughes ◽  
G. K. Springer ◽  
L. D. Spate ◽  
R. Li ◽  
R. J. Woods ◽  
...  
Keyword(s):  
Relative Abundance ◽  
Nuclear Transfer ◽  
Developmental Stages ◽  
Reproductive Technologies ◽  
Blastocyst Stage ◽  
Preimplantation Embryos ◽  
Cell Stage ◽  
Production Techniques

Identification of transcripts that are present at key development stages of preimplantation embryos is critical for a better understanding of early embryogenesis. To that end, this project had two goals. The first was to characterize the relative abundance of multiple transcripts during several developmental stages, including metaphase II-stage oocytes (MPII), and 2-cell-stage (2-cell), precompact morula (PCM), and in vitro-produced blastocyst-stage (IVTBL) embryos. The second was to characterize differences in the relative abundance of transcripts present in in vivo- (IVVBL), in vitro-, and nuclear transfer-produced (NTBL) blastocysts. It was our hypothesis that the identification of differentially represented transcripts from these stages would reveal not only developmentally important genes, but also genes that might be aberrantly expressed due to embryo production techniques. Individual clusters from a large bovine EST project (http://genome.rnet.missouri.edu/Bovine/), which focused on female reproductive tissues and embryos, were compared using Fisher's exact test weighted by number of transcripts per tissue by gene (SAS PROC FREQ; SAS Institute, Inc., Cary, NC, USA). Of the 3144 transcripts that were present during embryogenesis, 125 were found to be differentially represented (P < 0.01) in at least one pairwise comparison (Table 1). Some transcripts found to increase in representation from the MPII to the 2-cell stage include protein kinases, PRKACA and CKS1, as well as the metabolism-related gene, PTTG1. These same transcripts were also found to decrease in representation from the 2-cell to the PCM stage. RPL15 (translation) and FTH1 (immune function) were both more highly represented in the PCM than in the 2-cell stage. From PCM to IVTBL, we saw an increase in RPS11, another translation-related transcript. When comparing blastocyst-stage embryos from different production techniques, several transcripts involved in energy production (e.g., COX7B and COX8A) were found to be more highly represented in the NTBL than in the IVTBL. COX8A was also more highly represented in the IVVBL than in the IVTBL. By investigating these differentially represented transcripts, we will be able to better understand the developmental implications of embryo manipulation. We may also be able to better develop reproductive technologies that lead to in vitro- and nuclear transfer-derived embryos which more closely follow a normal program of development. Table 1. Differentially represented transcripts between developmental stages

185 DEVELOPMENT CAPACITY OF PRE- AND POSTPUBERTAL PIG OOCYTES EVALUATED BY SOMATIC CELL NUCLEAR TRANSFER AND PARTHENOGENETIC ACTIVATION

2013 ◽  
Vol 25 (1) ◽  
pp. 241 ◽  
Author(s):  
H. S. Pedersen ◽  
R. Li ◽  
Y. Liu ◽  
P. Løvendahl ◽  
P. Holm ◽  
...  
Keyword(s):  
Somatic Cell ◽  
Somatic Cell Nuclear Transfer ◽  
Nuclear Transfer ◽  
Cell Number ◽  
Time Interval ◽  
Cell Stage ◽  
Parthenogenetic Activation ◽  
Development Capacity ◽  
Developmental Capacity

Most of the porcine oocytes used for in vitro studies are collected from gilts. Our aims were to study development capacity of gilt v. sow oocytes (pre- and postpubertal respectively) using 2 techniques illustrating development competence [parthenogenetic activation (PA) and somatic cell nuclear transfer (SCNT)], and to describe a simple method to select the most competent oocytes. Inside-ZP diameter of in vitro-matured gilt oocytes was measured (µm; small ≤110; medium >110; large ≥120). Gilt and sow oocytes were morphologically grouped as good (even cytoplasm, smooth cell membrane, visible perivitelline space) or bad before used for PA (good and bad) or SCNT (good). The PA and SCNT were performed as before with minor modifications (Cryobiol. 64, 60; Cell. Reprogr. 13, 521) before culture for 6 days in a standard or timelapse incubator. Rates of cleavage (CL%, Day 2), blastocyst (BL%, Day 6), and blastocyst cell number (Hoechst 33342) were recorded. For PA embryos in a timelapse incubator (26 oocytes/group; 2 replicates), the first appearance of 2-cell stage was recorded. Between groups, CL% and BL% were analysed by chi-square and cell number by t-test. Results are presented in the table for the development of good oocytes after PA. The results show a low CL% of small-gilts compared with the other groups. The BL% increased with gilt-oocyte-diameter; however, sow oocytes reached the highest BL%. Total cell number was higher in sow than in gilt blastocysts. The SCNT experiments showed no differences in CL% (90–96) and blastocyst cell number (51–59) between groups. The BL% was higher in medium gilts and sows (41; 45) compared with large gilts (21). The BL% of bad oocytes was 1% from all 4 groups (176 oocytes, 25 replicates). Time interval for appearance of 2-cell stage for embryos developing into blastocysts showed no differences between groups (19–20 h). Within groups, this time interval showed a larger standard deviation for embryos not developing v. embryos developing into blastocysts. It is concluded that (a) sow oocytes have higher developmental capacity compared to gilts, (b) small gilt oocytes are not developmentally competent, (c) measurement of inside-ZP diameter, combined with morphological selection, is useful to remove non-competent oocytes. Further studies are needed to dissect the developmental capacity of medium and large gilt oocytes. Also, further timelapse studies may reveal a time interval in which the first cleavage of embryos with high developmental capacity takes place. Table 1.Rates of cleavage (CL%), blastocyst (BL%), and total no. of cells (mean ± SEM) in blastocysts of PA embryos from gilts and sows1

44 IN VITRO DEVELOPMENT OF INTERSPECIES NUCLEAR TRANSFER EMBRYOS GENERATED WITH BOVINE OOCYTES AND EQUINE SKIN FIBROBLASTS

2011 ◽  
Vol 23 (1) ◽  
pp. 128
Author(s):  
J. Lee ◽  
J. Park ◽  
Y. Chun ◽  
W. Lee ◽  
K. Song
Keyword(s):  
Nuclear Transfer ◽  
Polar Body ◽  
Donor Cell ◽  
Skin Fibroblasts ◽  
Developmental Competence ◽  
Cleavage Rate ◽  
Cell Stage ◽  
Bovine Oocytes

Study for equine somatic cell nuclear transfer (SCNT) is an attractive field for research, but it has not been a major field of study because it is hard to obtain a sufficient number of ovaries and it takes a lot of time and effort for the recovery of oocytes matured in vivo by ovum pickup. It was reported that the bovine cytoplast could support the remodelling of equine donor cells (Zhou et al. 2007 Reprod. Domest. Anim. 42, 243–247). The objectives of this study are 1) to monitor the early events of equine SCNT by interspecies SCNT (isSCNT) between bovine cytoplast and equine donor cell, and 2) to investigate the developmental competence of isSCNT embryos. Bovine oocytes were recovered from the follicles of slaughtered ovaries, and matured in TCM-199 supplemented with 10 mU mL–1 FSH, 50 ng mL–1 EGF, and 10% FBS at 39°C under 5% CO2 in air for 22 h. Fibroblasts derived from bovine or equine skin tissues were synchronized at G0/G1 stage by contact inhibition for 72 h. After IVM, oocytes with polar body were enucleated and electrically fused with equine or bovine skin fibroblasts (1.0 kV cm–1, 20 μs, 2 pulses). Fused couplets were activated with 5 μM ionomycin for 4 min followed by 5 h culture in 10 μg mL–1 cycloheximide (CHX) and/or 2 mM 6-DMAP, and cultured in modified synthetic oviduct fluid (mSOF) at 39°C under 5% CO2, 5% O2, and 90% N2 for 7 days. All analyses were performed using SAS (version 9.1; SAS Institute, Cary, NC, USA). The cleavage rate of isSCNT embryos derived from equine cell was not different (252/323, 78.7%; P = 0.94) from that of SCNT embryos derived from bovine cell (230/297, 79.2%). However, the rate of isSCNT embryos developed to over 8-cell stage was lower (3.3%; P < 0.0001) than that of bovine SCNT embryos (39.4%), and total cell number of isSCNT embryos developed to over 8-cell stage was lower (17.5, n = 12; P < 0.0001) than that (80.8, n = 110) of bovine SCNT embryos. Also, the rate of blastocyst formation of isSCNT embryos (0/323; 0.0%) was lower (P < 0.0001) than that of bovine SCNT embryos (83/297; 29.3%). Meanwhile, reconstructed oocytes for isSCNT were fixed at 8 h after activation to investigate the formation of pseudo-pronucleus (PPN) after post-activation treatment with CHX or CHX+6-DMAP. The ratio of oocytes with single PPN after treatment with CHX+6-DMAP (26/35; 74.3%) was not different (P = 0.63) from that of oocytes treated with CHX (24/36; 68.1%). Although isSCNT embryos derived from bovine cytoplast and equine donor cell could not develop to more than the 16-cell stage, it is believed that the results of this isSCNT study could be used for the preliminary data regarding the reprogramming of donor cell in equine SCNT.

65 BLASTOCYSTS DERIVED FROM ADULT FIBROBLASTS OF RHESUS MONKEY (MACACA MULATTA) USING INTERSPECIES SOMATIC CELL NUCLEAR TRANSFER

2010 ◽  
Vol 22 (1) ◽  
pp. 191
Author(s):  
D. K. Kwon ◽  
J. T. Kang ◽  
S. J. Park ◽  
M. N. L. Gomez ◽  
S. J. Kim ◽  
...  
Keyword(s):  
Rhesus Monkey ◽  
Somatic Cell ◽  
Macaca Mulatta ◽  
Somatic Cell Nuclear Transfer ◽  
Nuclear Transfer ◽  
Embryonic Stem ◽  
Developmental Rate ◽  
Cell Stage ◽  
Nuclear Number

Interspecies somatic cell nuclear transfer (iSCNT) has alternatively chosen in primate SCNT because of the difficulty in collecting enough oocytes for research. The purpose of this experiment is to produce iSCNT-derived blastocysts using enucleated cow (Bos taurus) metaphase II oocytes and adult rhesus monkey (Macaca mulatta) fibroblasts. Ear skin tissueofrhesus monkey (male, 6 years old) was collected by biopsy and fibroblasts were isolated. Immature COCs from cow ovaries were collected and matured in vitro in TCM-199. Squish enucleation was done in the presence of bisbenzimide and cytochalasin B. After enucleation, a single rhesus monkey somatic cell was injected into the perivitelline space of an enucleated oocyte through the slit in the zona pellucida made during enucleation. Subsequently, the rhesus monkey somatic cell and cow oocyte membranes were electrically fused. The nonactivated interspecies cloned couplets were cultured for 2 h to allow reprogramming to occur. Then, couplets were activated using a 2-step protocol consisting of treatment with 5 μM ionomycin for 4 to 5 min and subsequently with 2mM 6-DMAP for 4 h. Activated iSCNT embryos were cultured for 10 days inmodified SOF with various conditions (at 37 to39°C, 5 to 5.5% CO2 and 5 to 20% O2) to examine the effects ofIVC conditions. As a results, most embryos were arrested at the 8- to 16-cell stage and only 3 blastocysts were derived from rhesus monkey iSCNT. The blastocyst developmental rate was 0.26% generated from the total IVC activated interspecies embryos (n = 1153). Among the 3 blastocysts, 2 of them were used for counting nuclear number using bisbenzimide staining. The nuclear number of the 2 iSCNT-derived blastocysts was 51 and 24, respectively. The other iSCNT-derived blastocyst was used for analyzing mitochondrial (mt)DNAto confirm that it contained both cow and rhesus monkey mtDNA. As a result, mtDNA from both rhesus monkey and cow were detected inPCR analysis. The band intensity was more dominant for cow mtDNA than for rhesus monkey mtDNA. Although the blastocyst developmental rate is extremely low, it is confirmed that two phylogenetically distant species including primate could develop in vitro until the blastocyst stage by iSCNT. The in vitro developmental system of this rhesus monkey iSCNT-derived blastocysts provides a platform for further improvement of developmental rate and quality of rhesus monkey iSCNT-derived blastocysts. It also provides an opportunity to establish rhesus monkey iSCNT-derived embryonic stem cell lines for study of rhesus monkey nucleus and cow mitochondria interaction mechanisms during early developmental stages. This study was financially supported by the Korean MEST, through the BK21 program for Veterinary Science, and SNU foundation (Benefactor; RNL Bio).

scholarly journals Birth of rats following nuclear exchange at the 2-cell stage

Zygote ◽  
2003 ◽  
Vol 11 (4) ◽  
pp. 317-321 ◽  
Author(s):  
Sangho Roh ◽  
Jitong Guo ◽  
Nakisa Malakooti ◽  
John R. Morrison ◽  
Alan O. Trounson ◽  
...  
Keyword(s):  
Nuclear Transfer ◽  
Blastocyst Stage ◽  
Developmental Competence ◽  
Perivitelline Space ◽  
Sprague Dawley ◽  
Cell Stage ◽  
Rat Embryos ◽  
Sprague Dawley Rats ◽  
Nuclear Exchange

We report full-term development of nuclear transfer embryos following nuclear exchange at the 2-cell stage. Nuclei from 2-cell rat embryos were transferred into enucleated 2-cell embryos and developed to term after transfer to recipients (NT2). Pronuclear exchange in zygotes was used for comparison (NT1). Zygotes and 2-cell embryos were harvested from 4-week-old female Sprague-Dawley rats. Nuclear transfer was performed by transferring the pronuclei or karyoplasts into the perivitelline space of recipient embryos followed by electrofusion to reconstruct embryos. Fused couplets were cultured for 4 or 24 h before being transferred into day 1 pseudopregnant recipients (Hooded Wistar) at the 1- or 2-cell stage. In vitro culture was also carried out to check the developmental competence of the embryos. In vitro development to the blastocyst stage was not significantly different between the two groups (NT1, 34.3%; NT2, 45.0%). Two of three recipients from NT1 and two of five recipients from NT2 became pregnant. Six pups (3 from NT1, 3 from NT2) were delivered from the four foster mothers. Three female pups survived; 2 from NT1 and 1 from NT2. At 2 months of age these pups appeared healthy, and were mated with Sprague-Dawley males. One rat derived from NT1 delivered 15 pups (5 males, 10 females) as did the rat from NT2 (7 males, 8 females). Our results show that by using karyoplasts from 2-cell stage embryos as nuclear donors and reconstructing them with enucleated 2-cell embryos, healthy rats can be produced.

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