Production of rabbit chimeric embryos by aggregation of zona-free nuclear transfer blastomeres

Zygote ◽  
2005 ◽  
Vol 13 (1) ◽  
pp. 39-44 ◽  
Author(s):  
P. Chrenek ◽  
A.V. Makarevich
Keyword(s):  
Nuclear Transfer ◽  
Inner Cell Mass ◽  
Cell Mass ◽  
Control Group ◽  
Embryonic Cells ◽  
Cell Stage ◽  
Egfp Gene ◽  
Chimeric Blastocysts ◽  
Rabbit Embryos

The objective of this study was to compare in vitro developmental capacity of zona-free aggregated rabbit chimeric embryos and the allocation of EGFP (enhanced green fluorescence protein) gene expression to the inner cell mass (ICM). We produced chimeric embryos by synchronous aggregation of zona-free blastomeres from embryonic cell nuclear transfer (EMB-NT) or somatic cell nuclear transfer (SC-NT) and blastomeres from normal zona-free embryos (N) at the 16-cell stage. In the control group, transgenic (TR) and normal zona-free embryos were used to produce chimeric embryos (TR<>N). EMB-NT embryos were produced by fusion of enucleated oocytes with embryonic cells, which were derived from 32-cell stage transgenic embryos bearing the EGFP gene. The SC-NT embryos were produced by fusing enucleated oocytes with cumulus cells, which were derived from homozygotes transgenic for the EGFP gene female oocytes at 16 h post-coitum. Nuclei of transgenic blastomeres emitted a green signal under fluorescence microscopy. Zona-free EMB-NT or zona-free SC-NT rabbit embryos, both with EGFP fluorescence, as well as TR and zona-free rabbit embryos with no fluorescence (EMB-NT<>N, SC-NT<>N, TR<>N) were aggregated on day 2.5 and evaluated on day 5. The proportion of EMB-NT<>N embryos that developed to the blastocyst stage was significantly higher compared with SC-NT derived cells (p<0.05), but significantly lower than in TR<>N chimeric blastocysts (p<0.001). Similarly, a higher proportion (p<0.001) of EGFP-positive cells allocated to ICM of chimeric blastocysts was revealed in TR<>N chimeras (55%), compared with EMB-NT<>N (35%) and SC-NT<>N (21%). Our results indicate that synchronous chimeric embryos reconstructed from TR embryos were better able to develop and colonize the ICM area than EMB-NT and SC-NT embryos. In this study we have demonstrated for the first time that rabbit NT-derived embryos are able to develop into chimeric blastocysts and participate in the ICM area.

58 ISOLATION OF BOVINE TROPHOBLAST AND ITS REPROGRAMMING BY NUCLEAR TRANSFER

2011 ◽  
Vol 23 (1) ◽  
pp. 134
Author(s):  
I. M. Saadeldin ◽  
B. H. Kim ◽  
B. Roibas da Torre ◽  
O. J. Koo ◽  
G. Jang ◽  
...  
Keyword(s):  
Nuclear Transfer ◽  
Inner Cell Mass ◽  
Quantitative Polymerase Chain Reaction ◽  
Cell Mass ◽  
Donor Cell ◽  
Developmental Competence ◽  
Control Group ◽  
Embryonic Cells ◽  
Blastocyst Development

Nuclear transfer (NT) has been used to produce many cloned offspring using several types of cells, including embryonic cells. Even though inner cell mass cells have been used as donor karyoplast for producing cloned animals, there are few studies using trophoblast. In mice, clones were born by nuclear transfer of trophoblasts from the expanded blastocyst into enucleated oocytes as a trial to show the totipotency of both inner cell mass and trophectoderm cells isolated from blastocysts (Tsunoda and Kato 1998 J. Reprod. Fertil. 113, 181–184). However, bovine trophoblast cell (TC) lines have not been used in NT to date. The purpose of this study was to elucidate whether TC as donor cell can be reprogrammed in bovine enucleated oocyte and determine the relative abundance of interferon tau (IFNτ) expression in the resulting cloned preimplantational embryos. Hatched blastocysts produced by IVF were used to isolate TCs on mouse embryonic fibroblasts treated with mitomycin C as feeder cells. TCs and adult fibroblasts (AF, control group for NT) were microinjected to perivitelline space of in vitro mature enucleated oocytes and electrically fused. Reconstructed embryos were chemically activated and cultured in a 2-step chemically defined medium. Levels of IFNτ expression in IVF-, TC-, and AF-derived blastocysts were analyzed using reverse transcription-quantitative polymerase chain reaction (RT-qPCR). IVF produced embryos were used as reference to analyze the linear progressive expression of IFNτ through mid-, expanded, and hatching blastocysts. As a result, TCs expressing IFNτ were successfully isolated and cultured on feeder layers. It grew as cell sheets of cuboidal epithelium with high proliferation capacity as a single colony originated from a small clump of cells measured 0.5 cm within 7 days of culture. TCs were reprogrammed in the enucleated oocytes to blastocyst with similar efficiency to AF (14.5% and 15.6%, respectively; P ≤ 0.05). RT-qPCR studies showed that IFNτ expression was higher in TC-derived blastocysts than IVF- and AF-derived blastocysts. Both IVF- and TC-derived blastocysts, showed progressive increase of IFNτ expression through the advancement of blastocyst development when it was compared to AF-derived blastocysts. In conclusion, using TCs expressing IFNτ as donor cell for bovine NT could increase the developmental competence of cloned embryos as indicated by progressive linear increase in IFNτ expression. This study was supported by grants from IPET (#109023-05-1-CG000), NRF (#M10625030005-10N250300510), MKE (#2009-67-10033839, #2009-67-10033805), and BK21 program. Saadeldin I. M. is supported by Islamic Development Bank (IDB) merit scholarship, Jeddah, Saudi Arabia.

77 Development and quality of in vitro bovine hemi embryos produced by blastomere separation and embryo bisection

2019 ◽  
Vol 31 (1) ◽  
pp. 164
Author(s):  
A. E. Ynsaurralde Rivolta ◽  
M. Suvá ◽  
V. Alberio ◽  
C. Vazquez Echegaray ◽  
A. Guberman ◽  
...  
Keyword(s):  
Inner Cell Mass ◽  
Cell Mass ◽  
Monozygotic Twin ◽  
Cell Number ◽  
Control Group ◽  
Cell Stage ◽  
Exact Test ◽  
Development Rates

Bovine monozygotic production of twins became popular in the 1980s as a technique to multiply high value genetics. Moreover, it also became a powerful model for research. Different techniques have been used on bovine embryos obtained by superovulation. In this work, we compared the development rates and quality of monozygotic twin embryos produced by blastomere separation (BS) and embryo bisection (EB) of IVF embryos. To this aim, cumulus-oocytes complexes collected from slaughterhouse ovaries were in vitro matured in TCM 199 containing 10% fetal bovine serum, 10µg mL−1 FSH, 0.3mM sodium pyruvate, 100mM cysteamine, and 2% antibiotic-antimycotic for 24h, at 6.5% CO2 in humidified air and 38.5°C. The IVF was performed with 16×106 spermatozoa per mL for 5h. Afterward, presumptive zygotes were cultured in SOF medium for 7 days at 38.5°C and 5% O2. After 24h of culture, blastomeres of 2-cell stage embryos (N=114) were separated and each one was cultured individually in a microwell for 7 days. Embryo bisection (N=179) was performed manually on Day-7 blastocysts previously depleted of their zonae pellucidae, under stereoscopic microscope. Hemi embryos were cultured for 24h and then twins and single blastocyst rates were calculated. For quality assessment, diameter, total and inner cell mass (ICM) cell number of hemi embryos (BS: 6 couples; ES: 10 couples) and the control group (C: 11) were evaluated. The ICM cell number was measured by immunofluorescence staining using SOX2 antibody and the percentage of ICM and trophectoderm (TE) cells was calculated. The results were analysed using Fisher’s exact test and ANOVA with mean comparison using Tukey’s test (P=0.05). No statistical differences were found in blastocyst rates of twins and single hemi embryos produced by BS (28 and 25%) or EB (23 and 32%). Blastocyst diameter was similar between groups and control. Hemi embryos exhibited lower total and ICM cell number than control (BS: 43±18, EB: 57±14v. C: 93±35 and BS: 16±7, EB: 12±8v. C: 34±19). However, BS hemi embryos had higher ICM and lower TE percentage (40/60%) compared with the EB group (20/80%). The control group did not differ with hemi embryo treatments for ICM and TE (30/70%). Our preliminary results have indicated that although the development rates of hemi embryos produced in vitro were similar between both techniques, blastomere separation generates better quality embryos than blastocyst bisection.

scholarly journals Analysis of DNA fragmentation in bovine somatic nuclear transfer embryos using TUNEL

Reproduction ◽  
2002 ◽  
pp. 813-819 ◽  
Author(s):  
M Fahrudin ◽  
T Otoi ◽  
NW Karja ◽  
M Mori ◽  
M Murakami ◽  
...  
Keyword(s):  
Dna Fragmentation ◽  
Nuclear Transfer ◽  
Inner Cell Mass ◽  
Cell Mass ◽  
Terminal Deoxynucleotidyl Transferase ◽  
Cell Stage ◽  
Vitro Fertilization ◽  
Fragmented Nucleus ◽  
Number Of Cells

The production of cloned animals is an inefficient process because of early or late embryonic losses. This study focused on the DNA fragmentation that occurs during embryonic development. The occurrence of DNA fragmentation was examined in bovine embryos produced by in vitro fertilization (IVF) and somatic cell nuclear transfer (NT) using the terminal deoxynucleotidyl transferase (TdT) nick-end labelling (TUNEL). IVF and NT embryos at the two-cell to blastocyst stage were stained by TUNEL for the analysis of DNA-fragmented nuclei and with propidium iodide for determination of the total number of cells. DNA fragmentation was first detected in NT embryos at the four-cell stage, but in IVF embryos at the six- to eight-cell stage. The percentage of embryos with at least one DNA-fragmented nucleus increased with the advance of the developmental stage of embryos in both IVF and NT groups. The DNA-fragmented nucleus index in NT embryos that developed beyond the four-cell stage was significantly higher (P<0.01) than that of IVF embryos at the same stage. In the both IVF and NT groups, TUNEL-labelled cells were detected in almost all blastocysts and were mainly observed in presumptive inner cell mass (ICM) cells of embryos. The DNA-fragmented nucleus index was negatively correlated with the total number of cells in NT blastocysts, but this relationship was not observed in IVF blastocysts. These results suggest that the high occurrence of DNA fragmentation observed in NT embryos may be related to early embryonic loss after transfer.

scholarly journals Totipotency of mouse zygotes extends to single blastomeres of embryos at the four-cell stage

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Marino Maemura ◽  
Hiroaki Taketsuru ◽  
Yuki Nakajima ◽  
Ruiqi Shao ◽  
Ayaka Kakihara ◽  
...  
Keyword(s):  
Inner Cell Mass ◽  
Cell Mass ◽  
Mouse Embryos ◽  
Primitive Endoderm ◽  
Cell Stage ◽  
Supportive Environment ◽  
Mouse Zygotes ◽  
Single Blastomeres ◽  
Multicellular Organisms

AbstractIn multicellular organisms, oocytes and sperm undergo fusion during fertilization and the resulting zygote gives rise to a new individual. The ability of zygotes to produce a fully formed individual from a single cell when placed in a supportive environment is known as totipotency. Given that totipotent cells are the source of all multicellular organisms, a better understanding of totipotency may have a wide-ranging impact on biology. The precise delineation of totipotent cells in mammals has remained elusive, however, although zygotes and single blastomeres of embryos at the two-cell stage have been thought to be the only totipotent cells in mice. We now show that a single blastomere of two- or four-cell mouse embryos can give rise to a fertile adult when placed in a uterus, even though blastomere isolation disturbs the transcriptome of derived embryos. Single blastomeres isolated from embryos at the eight-cell or morula stages and cultured in vitro manifested pronounced defects in the formation of epiblast and primitive endoderm by the inner cell mass and in the development of blastocysts, respectively. Our results thus indicate that totipotency of mouse zygotes extends to single blastomeres of embryos at the four-cell stage.

Abnormal development of pre-implantation mouse embryos grown in vitro with [3H]thymidine

Development ◽  
1973 ◽  
Vol 29 (3) ◽  
pp. 601-615
Author(s):  
M. H. L. Snow
Keyword(s):  
Specific Activity ◽  
Inner Cell Mass ◽  
Cell Damage ◽  
Cell Mass ◽  
Cell Number ◽  
Mouse Embryos ◽  
Abnormal Development ◽  
Tritium Concentration ◽  
Cell Stage

Mouse embryos were grown in vitro from the 2-cell stage to blastocysts in the presence of [3H]thymidine. Methyl-T-thymidine and thymidine-6-T(n) were used and both forms found to be lethal at concentrations above 0·1 μCi/ml. Both forms of [3H]Tdr at concentrations between 0·01 and 0·1 μCi/ml caused a highly significant (P &lt; 0·001) reduction in blastocyst cell number. The reduction in cell number, which was positively correlated with specific activity and tritium concentration, was associated with cell damage typical of radiation damage caused by tritium disintegration. Thymidine-6-T(n) also significantly reduced the number of 2-cell embryos forming blastocysts whereas methyl-T-Tdr did not. This difference in effect is assumed to be caused by contamination of one form of [3H]Tdr with a by-product of the tritiation process. A study of the cleavage stages showed that almost all the reduction in cell numbers could be accounted for by selective cell death occurring at the 16-cell stage. Cells which survive that stage cleave at a normal rate. The cells that are most susceptible to [3H]Tdr damage were found to normally contribute to the inner cell mass. The [3H]Tdr-resistant cells form the trophoblast. It is possible to grow blastocysts in [3H]Tdr such that they contain no inner cell mass but are composed entirely of trophoblast. Comparatively short (12 h) incubation with [3H]Tdr at any stage prior to the 16-cell stage will cause this damage. Possible reasons for this differential effect are discussed, and also compared with damage caused by X-irradiation.

scholarly journals Simultaneous gene quantitation of multiple genes in individual bovine nuclear transfer blastocysts

Reproduction ◽  
2007 ◽  
Vol 133 (1) ◽  
pp. 231-242 ◽  
Author(s):  
Craig Smith ◽  
Debbie Berg ◽  
Sue Beaumont ◽  
Neil T Standley ◽  
David N Wells ◽  
...  
Keyword(s):  
Gene Expression ◽  
Nuclear Transfer ◽  
Inner Cell Mass ◽  
Cell Mass ◽  
Ectopic Expression ◽  
Cell Number ◽  
Transcript Levels ◽  
Multiple Genes

During somatic cell nuclear transfer (NT), the transcriptional status of the donor cell has to be reprogrammed to reflect that of an embryo. We analysed the accuracy of this process by comparing transcript levels of four developmentally important genes (Oct4,Otx2,Ifitm3,GATA6), a gene involved in epigenetic regulation (Dnmt3a) and three housekeeping genes (β-actin, β-tubulinandGAPDH) in 21 NT blastocysts with that in genetically half-identicalin vitroproduced (IVP,n=19) andin vivo(n=15) bovine embryos. We have optimised an RNA-isolation and SYBR-green-based real-time RT-PCR procedure allowing the reproducible absolute quantification of multiple genes from a single blastocyst. Our data indicated that transcript levels did not differ significantly between stage and grade-matched zona-free NT and IVP embryos except for Ifitm3/Fragilis, which was expressed at twofold higher levels in NT blastocysts.Ifitm3expression is confined to the inner cell mass at day 7 blastocysts and to the epiblast in day 14 embryos. No ectopic expression in the trophectoderm was seen in NT embryos. Gene expression in NTand IVP embryos increased between two- and threefold for all eight genes from early to late blastocyst stages. This increase exceeded the increase in cell number over this time period indicating an increase in transcript number per cell. Embryo quality (morphological grading) was correlated to cell number for NT and IVP embryos with grade 3 blastocysts containing 30% fewer cells. However, only NT embryos displayed a significant reduction in gene expression (50%) with loss of quality. Variability in gene expression levels was not significantly different in NT, IVP orin vivoembryos but differed among genes, suggesting that the stringency of regulation is intrinsic to a gene and not affected by culture or nuclear transfer.Oct4levels exhibited the lowest variability. Analysing the total variability of all eight genes for individual embryos revealed thatin vivoembryos resembled each other much more than did NT and IVP blastocysts. Furthermore,in vivoembryos, consisting of 1.5-fold more cells, generally contained two- to fourfold more transcripts for the eight genes than did their cultured counterparts. Thus, culture conditions (in vivoversusin vitro) have greater effects on gene expression than does nuclear transfer when minimising genetic heterogeneity.

71 EFFECT OF CELL QUANTITY IN MICE CHIMERA PRODUCTION BY DEMI-BLASTOCYST AGGREGATION

2012 ◽  
Vol 24 (1) ◽  
pp. 148
Author(s):  
C. Pontes Godoi ◽  
P. D. Moço ◽  
B. Cazari ◽  
P. T. Mihara ◽  
P. V. Silva ◽  
...  
Keyword(s):  
Cell Mass ◽  
Farm Animals ◽  
Control Group ◽  
Chi Square ◽  
Cell Stage ◽  
Exact Test ◽  
Chi Square Test ◽  
Aggregation Technique

Eight-cell-stage to pre-compaction morula are the most used embryonic stages to aggregation, because the embryos, in these early stages, synthesise cell adhesion molecules that increase the aggregation chances among them (Vestweber et al. 1987 Develop. Biol. 124, 451–456). Although post-compaction embryos produce reduced aggregation rates, they are not refractory to this process (Nogueira et al. 2010 Transgenic Res. 19, 344–345). Based on the evidence of less permissive aggregation in post-compaction-stage embryos and the need to expose the inner surface of those embryos to improve aggregation rate, the aim of this study was to evaluate, in mice, the influence of cell quantity (i.e. the quantity of half-embryos put together to aggregate themselves) in the chimerism rate of split blastocysts. Embryos, with preferentially different phenotypes, were obtained from C57BL/6/EGFP and Swiss Webster strains. Females ranging from 21 to 45 days old were superstimulated and mated according to Mancini et al. (2008 Transgenic Res. 17, 1015). Eight-cell-stage embryos (8C) and pre-compaction morula (PCM) were recovered (2 to 2.5 days post coitum) and had their zona pellucida removed using pronase treatment (2 mg mL–1 for 15 min), whereas blastocysts (recovered 3.5 dpc) were split with a microblade controlled by micromanipulator in an inverted microscope (NK2; Eppendorf, Hamburg, Germany and Eclipse Ti; Nikon, Tokyo, Japan, respectively). The aggregation groups were a control (C) with 2 pre-compaction whole embryos (8C or PCM, or both) and 2 experimental with post-compaction embryos [i.e. 2 (2DB) or 4 (4DB) demi-blastocysts]. The structures (2 or 4) of the groups were stuck to each other with the use of phytohemagglutinin (1 mg mL–1) and cultured in vitro by 24 h (37°C, 5% CO2 and saturated humidity). After culture, the presence of chimeric embryos was verified by detection of a single, cohesive cell mass or a structure in an 8 shape with more than one-half of its total diameter aggregated. For the 4DB group, a successful aggregation was considered when, at least 2 of 4 DB had aggregated. The results were analysed using chi-square test, Fisher's exact test and Kruskal-Wallis (to compare among groups, between groups and among medians of group replicates, respectively) and significance was considered when P < 0.05. The aggregation rates for the groups C, 2DB and 4DB were, respectively, 77.3a; 8.3b and 36.4%c (P < 0.001). The increasing of the aggregation technique efficacy, in post-compaction stages, would be particularly interesting in farm animals (e.g. bovine species), where it is not feasible to obtain, in vivo, pre-compaction stages embryos (as 8 cells) and when only trophectoderm aggregation is wanted. It was concluded that cell increasing (from 2 to 4 DB) improved the chimerism rate, but not enough to be similar to the control group. Supported by FAPESP of Brazil.

The effect of dual inhibition of Ras–MEK–ERK and GSK3β pathways on development of in vitro cultured rabbit embryos

Zygote ◽  
2020 ◽  
Vol 28 (3) ◽  
pp. 183-190 ◽  
Author(s):  
Babett Bontovics ◽  
Pouneh Maraghechi ◽  
Bence Lázár ◽  
Mahek Anand ◽  
Kinga Németh ◽  
...  
Keyword(s):  
Stem Cells ◽  
Activin A ◽  
Mouse Strains ◽  
Suitable Model ◽  
Embryonic Cells ◽  
Cell Stage ◽  
Human Ipscs ◽  
Dual Inhibition ◽  
Rabbit Embryos

SummaryDual inhibition (2i) of Ras–MEK–ERK and GSK3β pathways enables the derivation of embryo stem cells (ESCs) from refractory mouse strains and, for permissive strains, allows ESC derivation with no external protein factor stimuli involvement. In addition, blocking of ERK signalling in 8-cell-stage mouse embryos leads to ablation of GATA4/6 expression in hypoblasts, suggesting fibroblast growth factor (FGF) dependence of hypoblast formation in the mouse. In human, bovine or porcine embryos, the hypoblast remains unaffected or displays slight-to-moderate reduction in cell number. In this study, we demonstrated that segregation of the hypoblast and the epiblast in rabbit embryos is FGF independent and 2i treatment elicits only a limited reinforcement in favour of OCT4-positive epiblast populations against the GATA4-/6-positive hypoblast population. It has been previously shown that TGFβ/Activin A inhibition overcomes the pervasive differentiation and inhomogeneity of rat iPSCs, rat ESCs and human iPSCs while prompting them to acquire naïve properties. However, TGFβ/Activin A inhibition, alone or together with Rho-associated, coiled-coil containing protein kinase (ROCK) inhibition, was not compatible with the viability of rabbit embryos according to the ultrastructural analysis of preimplantation rabbit embryos by electron microscopy. In rabbit models ovulation upon mating allows the precise timing of progression of the pregnancy. It produces several embryos of the desired stage in one pregnancy and a relatively short gestation period, making the rabbit embryo a suitable model to discover the cellular functions and mechanisms of maintenance of pluripotency in embryonic cells and the embryo-derived stem cells of other mammals.

Potential of two-cell mouse embryos to develop to term despite partial damage after cryopreservation

1995 ◽  
Vol 29 (3) ◽  
pp. 320-326 ◽  
Author(s):  
Th. Rülicke ◽  
P. Autenried
Keyword(s):  
Inner Cell Mass ◽  
Cell Mass ◽  
Blastocyst Stage ◽  
Mouse Embryos ◽  
Cell Stage ◽  
Freeze Thaw ◽  
Foster Mothers ◽  
Vital Stains ◽  
Partial Damage

Approximately 18% of cryopreserved 2-cell mouse embryos of 26 different batches showed various degrees of morphological damage after the freeze-thaw process. Normal and damaged morphology were assessed by light microscopy and the ability of an embryo to develop in vitro to a blastocyst, or to develop to term, after transfer to foster mothers. Using vital stains such as Fluorescein-diacetate (FDA) and 4',6-Diamidino-2-Phenylindole (DAPI) it was found that in approximately 82% of the cases, both of the 2 blastomeres of the cryopreserved embryos survived the freeze-thaw process; in 10% only one cell survived the process; and in 8% none survived. Normally, only intact 2-cell embryos are considered for transfer. Here it was shown that over 60% of the partially damaged embryos developed in vitro to the blastocyst stage and, of those, 26% developed to term after transfer to suitable foster mothers. Although the inner cell mass (ICM) appeared to remain smaller during culture after the transfer of partially damaged 2-cell stage embryos, no difference during gestation period was found compared with intact embryos.

scholarly journals 45PRODUCTION OF CHIMERIC TRANSCHROMOSOMIC CALVES

2004 ◽  
Vol 16 (2) ◽  
pp. 144
Author(s):  
P. Kasinathan ◽  
M.F. Nichols ◽  
J.E. Griffin ◽  
J.M. Robl
Keyword(s):  
Inner Cell Mass ◽  
Cell Mass ◽  
Peripheral Blood Lymphocytes ◽  
Blastocyst Stage ◽  
Human Artificial Chromosome ◽  
Fish Analysis ◽  
Blastocyst Development ◽  
Cell Stage ◽  
Fetal Fibroblasts

Chimeras have been used for investigating fundamental aspects of early embryonic development, and differentiation, and for introducing foreign genes into mammals (Robertson et al., 1986 Nature 323, 445–448; Cibelli et al., 1998 Science 280, 1256–1258). The main objective of this study was to determine if the transfer of blastomeres from in vitro-produced (IVP) embryos into cloned, transchromosomic embryos improved the efficiency of producing transchromosomic calves. Cloned embryos were produced using in vitro-matured bovine oocytes and bovine fetal fibroblasts containing a human artificial chromosome (HAC) (Kuroiwa et al., 2002 Nat Biotechnol 20, 889–894). IVP embryos were produced using standard procedures and blastomeres were harvested at the 8–16 cell stage by removing the zona pellucida with protease. Cloned embryos were randomly divided on Day 4 into two groups. One group received 3–4 IVP blastomeres while a second group served as a control (nonmanipulated cloned embryos). After transferring the blastomeres, the chimeric and cloned embryos were placed in culture (Kasinathan et al., 2001 Biol. Reprod. 64, 1487–1493) and on Day 7 development to the blastocyst stage was evaluated. Grades 1 and 2 embryos were transferred; two each per synchronized recipient. Pregnancy maintenance, calving, and calf survival were evaluated in both groups. Presence of a HAC in live calves was evaluated in both fibroblasts and peripheral blood lymphocytes (PBLs) using FISH analysis. Embryo development to the blastocyst stage, maintenance of pregnancy and number of calves born were analyzed using Chi-square. There were no differences in the rate of blastocyst development at day 7 or establishment of pregnancy at 40d (P&gt;0.05). However, pregnancy rate at 120d, and number of calves that developed to term and were alive at birth (chimera 14/54 and clone 4/90), and at 1 month of age (chimera 13/54 and clone 1/90) were lower (P&lt;0.01) for cloned embryos. The proportion of cells containing an HAC in PBLs, was higher in cloned calves (100%) compared to chimeric calves (26%). The HAC retension rates in PBLs in HAC-positive chimeric and cloned calves were 84% and 95%, respectively. These data indicate that, although the proportion of calves retaining an HAC was lower in chimeras compared to clones, more HAC-positive calves were produced in the chimeric treatment from fewer cloned embryos. We speculate that higher rates of development in the chimeras may be related to the normality of the placenta. Future studies will be required to determine the contribution of the IVP blastomeres to both the inner cell mass and trophectoderm. Therefore, a chimeric approach may be useful for improving the efficiency of producing cloned transchromosomic calves.

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