Bovine preimplantation embryos with silenced nucleophosmin mRNA are able to develop until the blastocyst stage

This study was conducted to investigate the effect of silencing nucleophosmin in the development of in vitro-produced bovine embryos. Nucleophosmin is an abundant multifunctional nucleolar phosphoprotein that participates, for example, in ribosome biogenesis or centrosome duplication control. We showed that although the transcription of embryonic nucleophosmin started already at late eight-cell stage, maternal protein was stored throughout the whole preimplantation development and was sufficient for the progression to the blastocyst stage. At the beginning of embryogenesis, translation occurs on maternally derived ribosomes, the functionally active nucleoli emerge during the fourth cell cycle in bovines. We found that nucleophosmin localisation reflected the nucleolar formation during bovine preimplantation development. The protein was detectable from the beginning of embryonic development. Before embryonic genome activation, it was dispersed throughout the nucleoplasm. The typical nucleolar localisation emerged with the formation of active nucleoli. At the blastocyst stage, nucleophosmin tended to localise especially to the trophectoderm. To see for how long is maternal nucleophosmin preserved, we silenced the nucleophosmin mRNA using RNA interference approach. Although a large portion of nucleophosmin was degraded in embryos with silenced nucleophosmin mRNA, an amount sufficient for normal development was preserved and we detected only a temporal delay in nucleophosmin relocalisation to nucleoli. Moreover, we observed no defects in nuclear shape or cytoskeleton previously found in somatic cells and only a non-significant decrease in embryonic developmental competence. Thus, our results show that the preserved amount of maternal nucleophosmin is sufficient for preimplantation development of bovine embryo.

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Transcription of paternal Y-linked genes in the human zygote as early as the pronucleate stage

Zygote ◽

10.1017/s0967199400002100 ◽

1994 ◽

Vol 2 (4) ◽

pp. 281-287 ◽

Cited By ~ 76

Author(s):

Asangla Ao ◽

Robert P. Erickson ◽

Robert M.L. Winston ◽

Alan H Handysude

Keyword(s):

Mammalian Species ◽

Blastocyst Stage ◽

Preimplantation Embryos ◽

Human Embryos ◽

Cell Stage ◽

Gonad Differentiation ◽

Embryonic Genome ◽

Human Preimplantation Embryos

SummaryGlobal activation of the embryonic genome occurs at the 4– to 8–cell stage in human embryos and is marked by continuation of early cleavage divisions in the presence of transcriptional inhibitors. Here we demonstrate, using recerse transcripase–polymerase chin reaction (Rt–PCR), the presence of transcripts for wo paternal Y chromosomal genes, ZFY and SRY in human preimplantation embryos. ZFY transcripts were detected as early as the pronucleate stage, 20–24 h post-insemination In vitro and at intermediate stages up to the blastocyst stage. SRY Transcripts were also detected at 2–cell to blastocyos observed in many mammalian species focuses attention on the role of events in six determination prior to gonad differentiation.

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90 TRANSCRIPTION OF USP9Y AND ZFY IN DEVELOPING AND ARRESTED BOVINE EMBRYOS IN VITRO

Reproduction Fertility and Development ◽

10.1071/rdv25n1ab90 ◽

2013 ◽

Vol 25 (1) ◽

pp. 193

Author(s):

J. Caudle ◽

C. K. Hamilton ◽

F. A. Ashkar ◽

W. A. King

Keyword(s):

Embryo Development ◽

Blastocyst Stage ◽

Early Embryo ◽

Bovine Embryos ◽

Cell Stage ◽

Male Embryo ◽

Male Development ◽

Embryonic Genome ◽

Genome Activation

Sexual dimorphisms such as differences in growth rate and metabolism have been observed in the early embryo, suggesting that sex chromosome-linked gene expression may play an active role in early embryo development. Furthermore, in vitro sex ratios are often skewed toward males, indicating that Y-linked genes may benefit development. While little attention has been paid to the Y chromosome, expression of some Y-linked genes such as SRY and ZFY has been identified in the early embryo, and only a few studies have systematically examined early stages. Identification of transcripts of Y-linked genes in the early embryo may provide insights into male development and provide markers of embryonic genome activation in male embryos. The objectives of this study were i) to examine the timing of transcription of 2 Y chromosome-linked genes involved with sperm production and male development, ubiquitin-specific peptidase 9 (USP9Y) and zinc finger protein (ZFY), in in vitro-produced bovine embryos from the 2-cell stage to the blastocyst stage and ii) to determine if USP9Y and ZFY transcripts are present in in vitro-produced embryos arrested at the 2- to 8-cell stages. To examine the chronology of transcription of these genes, pools of 30 embryos for each developmental stage, 2-cell, 4-cell, 8-cell, 16-cell, morula, and blastocyst, were produced by bovine standard in vitro embryo production (Ashkar et al. 2010 Hum. Reprod. 252, 334–344) using semen from a single bull. Pools of 30 were used to balance sex ratios and to account for naturally arresting embryos. Embryos for each developmental stage were harvested and snap frozen. Total RNA was extracted from each pool, reverse transcribed to cDNA and by using PCR, and transcripts of USP9Y and ZFY were detected as positive or negative. In addition pools of 30 embryos arrested at the 2- to 8-cell stage harvested 7 days after IVF were processed and analysed in the same way to determine if transcripts from the Y chromosomes are present in developmentally arrested embryos. Transcripts of USP9Y and ZFY were detected in the pooled embryos from the 8-cell stage through to the blastocyst stage, but none were detected in the 2-cell or 4-cell pools. Transcripts of ZFY were detected in the arrested 2- to 8-cell embryo pool, but transcripts of USP9Y were not detected. Given that these Y genes begin expression at the 8-cell stage, coincident with embryonic genome activation, it was concluded that these genes may be important for early male embryo development. Furthermore, the results suggest that arrested embryos that have stopped cleaving before the major activation of the embryonic genome are still capable of transcribing at least some of these genes. The absence of USP9Y transcripts in the arrested embryos suggests that it may be important for early male embryo development. Funding was provided by NSERC, the CRC program, and the OVC scholarship program.

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MicroRNA expression in bovine preimplantation embryos

Reproduction Fertility and Development ◽

10.1071/rd17101 ◽

2018 ◽

Vol 30 (3) ◽

pp. 546 ◽

Cited By ~ 3

Author(s):

Debra K. Berg ◽

Peter L. Pfeffer

Keyword(s):

Expression Profiles ◽

Blastocyst Stage ◽

Preimplantation Embryos ◽

Recognition Sequence ◽

Stem Loop ◽

Embryonic Genome ◽

Mirna Expression Profiles ◽

Oocyte Stage ◽

Genome Activation

We profiled 98 mature microRNAs (miRNAs) using a stem-loop reverse transcription polymerase chain reaction assay array based on human miRNAs. We demonstrated that one, but not two, base-pair changes in the miRNA recognition sequence at the 3′ end only marginally affected copy number estimates. Absolute levels of miRNAs were measured in matured cattle oocytes, eight-cell embryos and normal and parthenogenetic blastocysts and Day-14 trophoblast. Most miRNA concentrations were below the expected functional threshold required for effective repression of moderately to highly abundant target RNA. In oocytes and peri-embryonic genome activation embryos, miRNA 320, a member of the Dgcr8/Drosha-independent class of miRNAs, was expressed at greater than 1000 copies per embryo. miRNAs were more abundant at the eight-cell than the oocyte stage. miRNA concentrations per cell increased from the eight-cell to the blastocyst stage. Both the number of miRNA species and their expression levels were reduced in trophoblast tissue at Day 14. The parthenogenetic samples were more related in their miRNA expression profiles to each other than to their wild-type (in vitro-produced cultured) counterparts. miRNAs 299 and 323, which have been shown to be maternally expressed in other species, were also more than 4-fold overexpressed in the cattle parthenogenetic samples.

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Preovulatory oocyte aging in mice affects fertilization rate and embryonic genome activation

10.1101/209437 ◽

2017 ◽

Author(s):

Hannah Demond ◽

Debora Dankert ◽

Ruth Grümmer ◽

Bernhard Horsthemke

Keyword(s):

Fold Increase ◽

Fertilization Rate ◽

Developmental Competence ◽

Preimplantation Embryos ◽

Cell Stage ◽

Embryonic Genome ◽

Oocyte Aging ◽

And Control ◽

Genome Activation ◽

Zygotic Genome

AbstractDelayed ovulation, or preovulatory aging, can seriously compromise the developmental competence of oocytes. In the present study, we have investigated the effect of preovulatory aging on preimplantation embryos. Delaying ovulation with the gonadotropin releasing hormone (GnRH) antagonist Cetrorelix led to a decline in 2-cell rate from 76 to 46%. From control mice, an average of 17 embryos per mouse was retrieved. This number decreased to a mean of 5 embryos per mouse after preovulatory aging, suggesting that fertilization is impaired by aging. For analysis of zygotic genome activation, 2-cell embryos were incubated with BrUTP, which was incorporated into nascent RNA and detected by immunohistochemistry. A 2.85-fold increase in fluorescence intensity was detected after aging, pointing to a precocious activation of the genome. A possible effect of preovulatory aging on genomic imprint maintenance was investigated at the 8-cell stage. Deep amplicon bisulfite sequencing of Igf2r, Snrpn, H19 and Pou5f1 showed no significant changes between embryos derived from preovulatory-aged oocytes and control embryos, indicating stable imprint maintenance throughout epigenetic reprogramming. We conclude that preovulatory aging of the oocyte affects fertilization and embryonic genomic activation.

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Expression of the HSP 70.1 gene, a landmark of early zygotic activity in the mouse embryo, is restricted to the first burst of transcription

Development ◽

10.1242/dev.121.1.113 ◽

1995 ◽

Vol 121 (1) ◽

pp. 113-122 ◽

Cited By ~ 4

Author(s):

E. Christians ◽

E. Campion ◽

E.M. Thompson ◽

J.P. Renard

Keyword(s):

Dna Replication ◽

Mouse Embryo ◽

Culture Conditions ◽

Hsp 70 ◽

Cell Stage ◽

Embryonic Genome ◽

Genome Activation ◽

Alpha Amanitin ◽

Zygotic Genome

Activation of the mouse embryonic genome at the 2-cell stage is characterized by the synthesis of several alpha-amanitin-sensitive polypeptides, some of which belong to the multigenic hsp 70 family. In the present work we show that a member of this family, the HSP 70.1 gene, is highly transcribed at the onset of zygotic genome activation. Transcription of this gene began as early as the 1-cell stage. Expression of the gene continued through the early 2-cell stage but was repressed before the completion of the second round of DNA replication. During this period we observed that the level of transcription was modulated by in vitro culture conditions. The coincidence of repression of HSP70.1 transcription with the second round of DNA replication was not found for other transcription-dependent polypeptides synthesized at the 2-cell stage.

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346 BOVINE EMBRYO DEVELOPMENT AFTER IVM/IVF/IVC OF OOCYTES STORED FOR 22 H IN VARIOUS MEDIA

Reproduction Fertility and Development ◽

10.1071/rdv19n1ab346 ◽

2007 ◽

Vol 19 (1) ◽

pp. 288

Author(s):

C. Kubota ◽

T. Kojima ◽

T. Nagai ◽

X. Tian ◽

X. Yang

Keyword(s):

Subsequent Development ◽

Industrial Applications ◽

Blastocyst Stage ◽

Developmental Competence ◽

Control Group ◽

Bovine Embryo ◽

Becton Dickinson ◽

In Vitro Storage ◽

Bovine Oocytes

The timing of IVM–IVF–IVC is restricted by the onset of oocyte maturation, and sometimes oocytes must be treated at midnight. If we could regulate the timing of IVM of oocytes without decreasing their developmental competence, the IVM–IVF–IVC system could be a more applied technology. The present study was performed to examine the effects of in vitro storage of bovine oocytes in simple media prior to maturation culture to manipulate the start of IVM. Bovine follicular fluid (bFF), Dulbecco's PBS (PBS), M199 Earle salts (M199), and Earle salts supplemented with 5 mM NaHCO3 (M199A) were used as the fundamental media, after an addition of antibiotics, for in vitro storage of bovine cumulus–oocyte complexes (COCs) collected from ovaries obtained at the slaughterhouse. The fundamental media except for bFF were supplemented with 10&percnt; fetal bovine serum (FBS) or 1 mg mL−1 polyvinyl alcohol (PVA). COCs were collected from follicles (3–8 mm in diameter) and washed twice in each medium; then approximately 50 COCs were submerged in 1 mL of each medium in cryotubes (Falcon #2812, 2.5 mL; Becton Dickinson Labware, Lincoln, NJ, USA), which were stored in a container kept at 38.5°C for 22 h under air-closed condition (in vitro storage: IVS). Subsequently, the stored COCs were in vitro-matured (IVM) for 22 h in M199 with 10&percnt; FBS and 20 µg mL−1 estradiol, fertilized (IVF), and cultured in CR1aa (IVC) for examination of their development to the blastocyst stage (Kubota et al. 1998 Mol. Reprod. Dev. 51, 281–286). Fresh oocytes without IVS were used as controls. The nuclear status of oocytes after IVS–IVM was compared to that of control oocytes by aceto-orcein stain. Their developmental rates to the blastocyst stage after IVM–IVF–IVC were compared between experimental and control groups. The experiment was repeated more than 3 times, and results were statistically analyzed using Student's t-test. When bFF and PBS supplemented with FBS or PVA were used for IVS, the rates of survived COCs after IVS and the development to the blastocyst stage after IVM–IVF–IVC (bFF (n = 87): 0&percnt;, 0&percnt;; PBS/FBS (n = 72): 84&percnt;, 1&percnt;; and PBS/PVA (n = 81): 89&percnt;, 6&percnt;, respectively) were significantly lower than those of the control group (n = 406; 97&percnt; and 29&percnt;, respectively). On the other hand, when M199A supplemented with FBS or PVA was used for IVS, the survival rate after IVS and the developmental rate to the blastocyst stage after IVS–IVM–IVF (M199A/FBS (n = 97): 82&percnt;, 28&percnt;; and M199A/PVA (n = 111): 98&percnt;, 31&percnt;, respectively) did not differ from those of the control group. After IVS, cumulus expansion was not seen and most of the oocyte nuclei reached the GVBD stage. These results suggest that the nuclear maturation progress of bovine oocytes can be regulated for at least 22 h in M199A without any deleterious influence on the number of oocytes surviving at an immature state after the storage and their subsequent development to the blastocyst stage after IVM–IVF–IVC. The delayed maturation allows a flexible fertilization schedule which is advantageous in research and industrial applications.

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69 GLOBAL H3k9ac AND H3k27me3 EXPRESSION IN BLASTOMERES FROM 8- TO 16-CELL STAGE BOVINE EMBRYOS

Reproduction Fertility and Development ◽

10.1071/rdv26n1ab69 ◽

2014 ◽

Vol 26 (1) ◽

pp. 148

Author(s):

C. S. Oliveira ◽

N. Z. Saraiva ◽

L. Z. Oliveira ◽

R. V. Serapião ◽

M. R. de Lima ◽

...

Keyword(s):

Monoclonal Antibody ◽

Histone Modifications ◽

Pearson Correlation ◽

Developmental Competence ◽

Bovine Embryos ◽

Cell Stage ◽

Embryonic Genome Activation ◽

Embryonic Genome ◽

Group A ◽

Genome Activation

Embryonic genome activation is a crucial step in early embryo development, and is accompanied by a dramatic change in the epigenetic profile of blastomeres. Histone modifications related to euchromatin and heterochromatin can be important parameters to infer developmental competence, as they are affected by manipulation and environmental stress conditions. The aim of this study was to characterise permissive (H3k9ac) and repressive (H3k27me3) histone modifications during the embryonic genome activation cell cycle in bovine embryos, regarding correlation between those marks and variance among blastomeres. For that, bovine embryos were produced by IVF and cultured in SOF medium supplemented with 5 mg mL–1 of BSA and 2.5% FCS in 5% O2 in an air atmosphere for 5 days (70 h after IVF). The 8 to 16 cell embryos were fixed in 4% paraformaldehyde and submitted to H3k9ac and H3k27me3 immunofluorescence assay (mouse anti-H3K9ac monoclonal antibody, 1 : 200; Sigma; rabbit anti-H3k27me3 monoclonal antibody, 1 : 200; Upstate, Charlottesville, VA, USA). Nuclei were counterstained with Hoechst 33342. Images of each embryo were captured (AxioCam, Carl Zeiss, São Paulo, Brazil) and measured for nuclear fluorescence intensity in each blastomere using Adobe Photoshop CS3 (Adobe Systems, San Jose, CA, USA). Mean levels were compared using the Mann-Whitney test and variances were compared using F-test (SAS 9.1, SAS Institute Inc., Cary, NC, USA; P = 0.05). We evaluated 2 replicates and 12 embryos during the transition from the 8 to 16 cell stages, totaling 169 blastomeres. Global H3k27me3 levels varied accordingly to H3k9ac levels, as indicated by a high Pearson correlation coefficient (r = 0.913). Levels of each blastomere were normalized to the lowest level obtained within each embryo. Some embryos displayed a high variation between blastomeres, and, for further analysis, we divided the embryos into groups: group A for embryos that presented similar H3k9ac levels between blastomeres (8 embryos, 66%), and group B for embryos that exhibited higher heterogeneity between blastomeres (at least 2 blastomeres presenting a 2-fold increase compared to the lowest blastomere; 4 embryos, 33%). Mean H3k9ac and H3k27me3 normalized levels were lower for group A [H3k9ac: 1.35 ± 0.29 (A), 1.94 ± 1.02* (B); H3k27me3: 1.33 ± 0.24 (A), 1.99 ± 0.77 (B)], and group A displayed lower variance values (H3k9ac: 0.07 (A), 1.05* (B); H3k27me3: 0.06 (A), 0.60 (B)]. Within each embryo, blastomeres were sorted in ascending order for H3k9ac level (1 to 16), and compared between groups A and B. We detected that mean levels differed (P < 0.05) between groups from blastomere 9 to 16 for H3k9ac and 10 to 16 for H3k27me3. Therefore, in 8- to 16-cell stage embryos, the H3k27me3 repressive mark is highly correlated with the H3k9ac permissive mark. Also, our results describe the presence of 2 distinguishable populations of bovine embryos at this stage, considering their epigenetic status. One population presented similar levels of repressive and permissive marks among blastomeres, whereas the second one displayed a remarkable variation among their blastomeres. This observation should be further studied, as it might reflect distinct cleavage pattern embryos and blastomere competence. The authors acknowledge FAPESP, FAPERJ and CNPq for financial support.

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

Reproduction Fertility and Development ◽

10.1071/rdv20n1ab180 ◽

2008 ◽

Vol 20 (1) ◽

pp. 169 ◽

Cited By ~ 1

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

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242 PROMISING TWO-STEP EVALUATION SYSTEM FOR SELECTING HIGH DEVELOPMENTAL COMPETENCE IN VITRO FERTILIZED EMBRYOS IN CATTLE USING WELL-OF-THE-WELL DISH

Reproduction Fertility and Development ◽

10.1071/rdv27n1ab242 ◽

2015 ◽

Vol 27 (1) ◽

pp. 210

Author(s):

M. Taniai ◽

M. Takayama ◽

O. Dochi ◽

K. Imai

Keyword(s):

Evaluation System ◽

Evaluation Method ◽

Calf Serum ◽

Time Lapse ◽

Developmental Competence ◽

Bovine Embryo ◽

Chi Square ◽

Cell Stage ◽

Chi Square Test

Bovine IVF embryos are evaluated morphologically using light microscopy just before transfer. However, this evaluation method is subjective, and an objective method with more certainty is needed. Sugimura et al. (PLoS ONE 2012 7, e36627) reported a promising system for selecting healthy IVF bovine embryo by using time-lapse cinematography and 5 prognostic factors. This study was to investigate the efficacy of a 2-step evaluation system of IVF embryos using microscopy for selecting high developmental competence IVF embryos. Cumulus-oocyte complexes (COC) were collected by ovarian follicular aspiration (2 to 5 mm diameter) obtained from a local abattoir. The COC (n = 488) were matured in TCM-199 medium supplemented with 5% calf serum (CS) and 0.02 IU mL–1 of FSH at 38.5°C for 20 h in an atmosphere of 5% CO2 (20 COC 100 µL–1 droplets). After 10 h of gametes co-culture (5.0 × 106 sperm cells mL–1), the presumptive zygotes were cultured in 125 µL of CR1 aa medium supplemented with 5% CS in well of-the-well culture dishes (AS ONE, Japan; 25 zygotes well–1) at 38.5°C in an atmosphere of 5% CO2, 5% O2, and 90% N2 for 9 days. Two-step evaluations of embryos were done at 27 and 55 h post-IVF (hpi). In the first step of evaluation, cleavage patterns at 27 hpi were categorized as mono-cell, 2-cell with even blastomeres and without fragments (normal cleavage), 2-cell with uneven blastomeres, and ≥3 blastomeres. During the second step of evaluation, embryos were classified by their number of blastomeres (2 to 5 cells, 6 to 8 cells, and >8 cells) and the absence or presence of multiple fragments (<20 or >20%) at 55 hpi. The data were analysed by chi-square test. The blastocyst rate (BL%) of embryos cleaved before 27 hpi (56.6%, n = 106) was higher (P < 0.01) than those of embryos cleaved after 27 hpi (37.0%, n = 235). A greater percentage (P < 0.05) of 2-cell embryos with normal cleavage (68.0%, n = 50) developed to blastocysts than from with =3 blastomeres at 27 hpi (40.6%, n = 32). Superior BL% (P < 0.01) was obtained from embryos categorized as 6- to 8-cell stage (58.6%, n = 140) and >8 cell stage (70.6%, n = 25) compared with those embryos at the 2- to 5-cell stage at 55 hpi (26.1%, n = 176). Embryos with no fragments (58.0%, n = 467) had higher BL% (P < 0.01) compared with those with <20% fragments (30.7%, n = 127) and having with >20% fragments (17.5%, n = 25) at 55 hpi. The highest of BL% was observed in embryos showing a normal cleavage to 2-cells with at 27 hpi and having >6 cells with no fragments at 55 hpi (95.2%, n = 21, P < 0.01). These results demonstrate that the 2-step evaluation system at 27 and 55 hpi using microscopy is an effective method for selecting IVF embryos with high developmental competence.

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Silencing CENPF in bovine preimplantation embryo induces arrest at 8-cell stage

Reproduction ◽

10.1530/rep-09-0234 ◽

2009 ◽

Vol 138 (5) ◽

pp. 783-791 ◽

Cited By ~ 14

Author(s):

Tereza Toralová ◽

Andrej Šušor ◽

Lucie Němcová ◽

Kateřina Kepková ◽

Jiří Kaňka

Keyword(s):

Fluorescent Protein ◽

Staining Intensity ◽

Preimplantation Development ◽

Developmental Competence ◽

Preimplantation Embryos ◽

Bovine Embryos ◽

Cell Stage ◽

Average Decrease ◽

Complex Protein ◽

Green Fluorescent

Identification of genes that are important for normal preimplantation development is essential for understanding the basics of early mammalian embryogenesis. In our previous study, we have shown that CENPF (mitosin) is differentially expressed during preimplantation development of bovine embryos. CENPF is a centromere–kinetochore complex protein that plays a crucial role in the cell division of somatic cells. To our best knowledge, no study has yet been done on either bovine model, or oocytes and preimplantation embryos. In this study, we focused on the fate of bovine embryos after injection of CENPF double-stranded RNA (dsRNA) into the zygotes. An average decrease of CENPF mRNA abundance by 94.9% or more and an extensive decline in immunofluorescence staining intensity was detected relative to controls. There was no disparity between individual groups in the developmental competence before the 8-cell stage. However, the developmental competence rapidly decreased then and only 28.1% of CENPF dsRNA injected 8-cell embryos were able to develop further (uninjected control: 71.8%; green fluorescent protein dsRNA injected control: 72.0%). In conclusion, these results show that depletion of CENPF mRNA in preimplantation bovine embryos leads to dramatic decrease of developmental competence after embryonic genome activation.

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